BR102013015772A2 - Digital disk diagram and its operating system - Google Patents

Abstract

Abstract “digital diagram disk and its operating system”, describes a digital diagram disk(1) and its operating system, characterized by comprising, dispersed in its constituent material, or on one of its surfaces, a configuration of interconnected electronic boards and circuits with each other in a specific way, providing on-board technology so that the trace performed on the disc(1), by the chronotachograph needle, referring to vehicle driving information, be captured and converted into a digital signal by the disc itself(1) and these data digital files to be stored directly on disk(1) and to be transmitted from disk(1) to external devices 10 via wireless communication protocols.

Description

DISK DIGITAL DIAGRAM AND ITS OPERATING SYSTEM This patent application describes a disk diagram for chronographs, with constructive configuration proposal comprising components and electronic circuits that gives it a totally different operating system from the disks already known in the current state of the art.

Diagram disks are widely known in the current state of the art as they are an extremely important and safe means of storing cargo and passenger vehicle driving data such as speed, distance traveled and movement and stopping times. Currently, most of them are made of special paper that ensures a safe record, preserving the information recorded there for periods of more than ten years. Examples of the prior art may be cited in patent document MU7101093-9 which describes a constructive disc arrangement arranged in micro-capsulated material; Patent document MU7200214-0 also discloses constructive arrangement applied to disk diagram, consisting of blocks of paper disks. Some other patent documents may be cited as a reference to the current state of the art, where JP10281804 describes a method and apparatus for analyzing disc diagrams; EP0917110 discloses an electronic tachograph system and its base, ie describes in essence the chronotachograph device. JP2001201361 discloses a digital type operation recording system presents solution where disc data is digitally transmitted from the chronograph which is carried on the vehicle; DE4321642 discloses a chronotachograph containing a chip card as the data bearer for reading on a reading device; EP0550080 describes a method and device for the automatic processing of data recorded in a tachograph chart; GB2075681 introduces a system for handling data recorded on the diagram disk; WO9308543 discloses a method and apparatus for reading tachograph graphics where disk information is digitized to representatively produce the data recorded in the table and send to a computer for processing this information. DE4206139 shows a method of interpreting chronograph diagrams where the graph during vehicle speed is digitized the image and the recording line profile is plotted on the digital image using a search algorithm. Document JPS60111921 describes an automatic reading method by reading the tachograph graph paper data optically; CA1086697 describes an electronic tachograph; GB1365200 presents an automatically analyzed diagram disk; US3908081 discloses an apparatus for converting chart data into a form suitable for computer processing. The object of the present patent application is a digital chronograph disc diagram, proposed to be a device to be used in replacement of conventional diagram diagrams, being more reliable and durable, ensuring greater accuracy and precision regarding the driving information of the vehicle and their storage. It is characterized by its constructive configuration comprising interconnected electronic devices and configured to give a totally different operating system from the disks already known in the current state of the art. Said disc is constituted by polymeric material foreseeing dispersion in the polymer, or in one of its surfaces, a configuration of plates and electronic circuits specifically interconnected, comprising embedded technology that allows the trace made by the chronotachograph needle, referring to the information of the driving the vehicle, whether captured by the disk and converted into digital signal, directly on the digital disk diagram; comprising a processing module communicating with a non-volatile memory device for storing transcribed data on disk, a wireless transmission device for transmitting data stored in memory to other terminals reading this data and an identification device of the digital disk diagram in question, checking its identity. Said digital disk is further characterized by being able to comprise device with global positioning system, called GPS that informs the real time positioning of said disk, as well as signal amplification device for carrying out information transmissions and also tracking via satellite. This digital disk is still characterized by its specific operating system, result of its constructive and electronic configuration. The digital diagram disk, object of the present patent application, has numerous technical and operating advantages over the technically known disks. One of the advantages is the useful life of the disc, as it can be used for a long period of time, and all information is digitally stored in its memory, and this data can be transferred to an external device. Another advantage lies in the fact that they are deformed: paper discs, due to their manufacturing material, suffer a slight deformation, resulting in an oval transcription of the disc information and loss of accuracy of the transcribed information. The disc made of polymeric material eliminates this deformation of the disc, eliminating this ovality of information transcription, ensuring greater accuracy and accuracy of recorded information. It is characteristic of the digital diagram disk to detect and interpret the information transcribed by the needle of the chronograph device and to convert this information into digital data directly on the disk; and storing this data in the memory device of the digital disk itself. It is characteristic of the digital disk diagram the presence of identification device of said disk. It is characteristic of the digital diagram disk to transmit this digital data via wireless devices, through communication protocols, to external devices. It is characteristic of the digital disk diagram to transmit, via wireless devices, information regarding its identification to antennas, satellites or other external capture devices. It is characteristic of the digital diagram disc to contain geo positioning device and the possibility of acting as a vehicle tracking and locating device.

The following figures, by way of example and illustration, together with the detailed description hereinafter, provide a better understanding of the digital disk diagram and its operating system, the subject of the present patent application, in which.

Figures 1 and 2 illustratively illustrate the disk (1) digital diagram showing the disk components in a representative manner. Figure 3 shows a diagrammatic illustration depicting the interconnections between the digital disk diagram components and their transmissions with external devices. Figure 4 shows a flowchart illustration depicting the basic steps of digital disk diagram operation.

It should be noted that the accompanying drawings and the detailed description that follows are merely given by way of example, as details of the technologies involved, as well as the electronic circuit topographies and specific configurations should not be construed as a limitation, but only as a basis for the description of the invented object and as a representative basis for the claims for teaching an expert in the art of employing and practicing the development of the proposed equipment, based on detailed description hereinafter, as there may or may be other technological solutions available for the conception of the invented object that do not misread its inventive idea.

According to figures 1 and 2, the digital diagram disc has dimensions and format similar to the already known discs, seeking its use in conventional chronographs or special chronographs. The disk (1) digital diagram is characterized by being composed of polymeric material foreseeing dispersion in the polymer, or in one of its surfaces, a configuration of plates and electronic circuits specifically interconnected, comprising embedded technology that allows the trace made by the chronotachograph needle, relating to vehicle driving information, is detected and interpreted by disk (1) and converted to digital signal directly on disk (1) digital diagram. Said disk (1) shall comprise a processing module (IO) wherein it provides specific software that controls all disk components (1) and processes all data conversion, storage and transmission information of disk (1); provides for needle detection means (11), which communicates with the processing module (IO) and which detects the positioning of the chronograph needle at the moment of its contact with the disc (1) and triggers the entire electronic circuit for operation. the disc (1); said disk (1) provides at least one nonvolatile memory device (12) which communicates with the processing module (IO), and where information transformed into digital data may be stored on the digital disk (1) itself; further comprising a wireless transmission device (13) of the type ZigBee or Bluetooth or compatible devices for function connected to the processing module (10) and enabling wireless transmission of this data stored in said memory (12) for external devices, which are reader or pickup terminals of this data; and further comprising a digital diagram disk (1) identification device (14), also connected to the processing module (10) and which confers its identity. Said digital diagram disk (1) may further comprise device with global positioning system, called GPS (15) which informs the real-time positioning of the diagram disk (1), as well as signal amplification device (2) for realization information transmission, such as satellite tracking (4). Figure 3 representatively shows the system comprised within the disk (1) digital diagram. The disk (1) is positioned on the chronotachograph and the needle is positioned over the disk (1), which is detected by sensing means (11), where it operates its operating circuit and its processing module (10); the chronotachograph needle information transcribed on disk (1) is interpreted by the processing module (IO) and transforms it into digital data by compatible methods; This digital data is stored in the memory device (12) of the disk (1), together with all the information regarding the dates and times of this event. The identification device (14) contains the identity information of the disk (1) and communicates with the processing module (IO), informing the identity of said disk (1) for identification at the moment of communication with the external devices; These external devices may be antennas (3), satellites (4) or enabled terminals (5) for receiving information stored on disk (1). The disk (1) communicates with external devices via its wireless transmission device (13), whereby the processing module (10) transmits, by means of communication protocol, the information regarding the disk identification (1) or the information concerning the content stored on your memory device (12). The transmission of disc identification information (1) can be transmitted with external devices such as pickup antennas (3), arranged on highways, for example at toll booths, where the vehicle when passing through this toll is identified through its disk (1) digital diagram, by means of its identification information to the signal pickup antenna (3); or by satellite tracking (4). To enable this identification data transmission, it may be necessary to have at least one signal amplifier device (2) available. This device may be arranged within the disc (1), inside the vehicle, on the windshield, for example, or on the chronograph device itself, or a combination thereof. This amplifier device (2) allows the transmission signal to be amplified and sent more efficiently to external devices, such as the antenna (3) for capturing this signal. Data transmission regarding disc identification information (1), informed by its identification device (14), is carried out via simple communication protocols to external devices, such as antennas (3) and satellites (4), which enable the identification and tracking the vehicle along the roads it travels. The GPS device (15) in turn may be required to enable vehicle location by means of the disc (1) digital diagram; the processing module (IO) receives information from the identification device (14) and the GPS device (15) and communicates with the transmission device (13) of the disc (1), which through the signal amplifier device (2), transmits the positioning of this disc (1) to the satellite (4), allowing its tracking by satellite (4) and consequently of the vehicle that uses it.

In the case of transmission of data stored in the memory device (12) regarding the vehicle driving information, the procedure is safer and limited to enabled terminals (5) and by means of complex communication protocols. Figure 4 diagrammatically illustrates the basic steps that involve this process from transcribing the information made by the chronograph needle to sending data to enabled terminals (5), which may be specific terminals, or computers, or portable devices, among others. , provided they are compatible and enabled to receive disk information (1) from your memory device (12). Firstly the disc (1) is positioned in the chronograph device where the needle is positioned over it. The first step is that the disc (1) detects (A) the positioning of the needle and after the positioning of said needle the entire circuit for system operation is triggered (B). System activation can be automatic, by positioning the needle on the disc (1) or by manual activation, each one of which must contain components, configurations and solutions to allow one of the forms of activation, or another form of activation not shown. After the system is activated (B) it is up to the system to interpret (C) the traces made by the chronotachograph needle; and then converting (D) into digital data, this information transcribed by the chronotachograph needle; This step must be performed on the disk itself (1), and for its realization compatible technologies will be used for such operation. After converting (D) the information into digital data, the next step is to store (E) the data in the memory device (12), along with all the information regarding the dates and times of these stored events, as well as the disc identification information (1), information provided by the identification device (14). With the stored data, it is available to be sent (F) to an enabled terminal (5). The information contained in the memory device (12) of disk (1) may be sent to said enabled terminal (5) by means of a complex and specific communication protocol, without, therefore, allowing this data to be violated, erased or altered by the device or user who accesses it. And when sent (F) the stored data to an enabled terminal (5), the system records (G) a protocol for sending this data, recording all the details of this sending and keeping all the information in the memory device (12). , and can normally be used again until you fill your memory device (12).

Said disk (1) can present, several other details of electronic circuits and operation, as the case of understanding means that informs the storage condition of the memory device (12), pointing to the user the free space that it still has. Disc (1) may contain other components for its operation, or for improving its operation as presented in this report, such as internal power supply system for its electronic components, needle sensing sensors, means that allow the transcribed traces of the needle to be displayed on the surface of the disc (1) for a specified time, and these can be erased manually or automatically, since the data will be stored internally to the disc (1), among other details, which will assist in the conception of the invented object and that does not misread its inventive idea. The disk (1) digital diagram as described above has dimensions and geometric shape similar to the diagram diagrams known in the current state of the art and used in chronograph devices. This similarity is to enable its use in chronograph devices already marketed and used by users. However, in order to make better use of digital information stored on disk (1), or because of the adaptations of technologies involved, both for transcription of information and for reading and transforming data, specific devices may be developed for its use, or Improvements in current chronographs, as long as it maintains the proposal of said digital disk (1), which is a device to be used in replacement of conventional diagrams, being more reliable and durable, ensuring greater accuracy and precision of transcriptions and storage of information regarding driving the vehicle.

Claims (10)

1. “DIGITAL DIAGRAM DISK AND ITS OPERATING SYSTEM” describes a disk (1) digital diagram and its operating system, characterized in that it comprises dispersed in its constituent material, or on one of its surfaces, a configuration of interconnected electronic boards and circuits. specifically, foreseeing embedded technology so that the trace made on the disc (1) by the chronotachograph needle, relating to vehicle driving information, will be captured and converted to digital signal by the disc itself (1) and this data be stored directly on disk (1) and transmitted from disk (1) to external devices via wireless communication protocols; 2. “DIGITAL DIAGRAM DISK AND ITS OPERATING SYSTEM” describes the disk (1) diagram for chronographs, characterized in that it consists of polymeric material and comprises dispersed in the polymer, or one of its surfaces, a processing module (IO). ) containing specific software and the processing module (IO) being connected to at least one chronotachograph needle detection and reading means (11) and comprising a disk identification device (14); and for providing at least one non-volatile memory device (12) and at least one wireless transmission device (13), also connected to the processing module (10); 3. "DIGITAL DIAGRAM DISK AND ITS OPERATING SYSTEM" according to claim 2, characterized in that the disk (1) comprises at least one amplifier device (2) which communicates with the transmission device (13); 4. "DIGITAL DIAGRAM DISK AND ITS OPERATING SYSTEM" according to claims 2 and 3, characterized in that the disk (1) comprises a GPS device (15) also connected to the processing module (10); and the GPS device (15) communicates with the processing module (10) and the transmission device (13) of the disc (1), and through the signal amplifier device (2), transmits the positioning of this disc (1). ) to an external device; 5. "DIGITAL DIAGRAM DISK AND ITS OPERATING SYSTEM" describes the disk operating system (1) according to claims 1 or 2, characterized in that the detection means (11) detect the positioning of the chronograph needle and actuate the operating circuit of the processing module (IO); and the processing module (10) identifies the disk identity (1) through the identification device (14) and the chronotachograph needle information transcribed on the disk (1) is interpreted by the processing module (IO) and transformed into digital data by compatible methods; and this digital data is stored in the memory device (12) of the disk (1) together with the identity information the dates and times of the realization of this event on the disk (1); and data relating to disc identification and location (1) is transmitted to external devices; and the data stored in the memory device (12) of the disc (1) relating to the vehicle driving information and its identification is transmitted to enabled terminals (5); 6. "DIGITAL DIAGRAM DISK AND ITS OPERATING SYSTEM" according to claim 5, characterized in that the data relating to the identification and location of the disk (1) is transmitted to external devices via simple communication protocol; 7. "DIGITAL DIAGRAM DISK AND ITS OPERATING SYSTEM" according to claim 5, characterized in that the data stored in the memory device (12) of the disc (1), relating to the driving information of the vehicle and its identification, is transmitted via complex communication protocol; 8. "DIGITAL DIAGRAM DISK AND ITS OPERATING SYSTEM" according to claim 5, characterized by the external devices that capture the data regarding the identification and location of the disk (1), being antennas (3), satellites (4), or compatible device; 9. “DIGITAL DIAGRAM DISC AND ITS OPERATING SYSTEM” describes the steps in the process of acquiring, storing and transmitting data relating to vehicle driving information to the enabled terminals (5), characterized in that it basically comprises the steps of: - detect (A) the positioning of the chronotachograph needle after its positioning on the disc (1); - Activate (B) the circuit for system operation; - Interpret (C) the traces made by the chronotachograph needle; And converting (D) this information transcribed by the chronograph's needle into digital data on the disk itself (1); - Store (E) the digital data in the nonvolatile memory device (12), the information regarding the dates and times of the realization of these stored events, and also the information regarding the disc identification (1), information provided by the device identification (14); - Providing the data to be sent (F), through complex communication protocol, to an enabled terminal (5), keeping the data inviolate in the memory device (12); - Register (G) through the sending protocol, the data sent, recording all the details of this sending and keeping all the information in the memory device (12) until its full use. 10. "DIGITAL DIAGRAM DISC AND ITS OPERATING SYSTEM" according to claim 8, characterized in that the drive (B) of the system is automatic by positioning the needle on the disk (1).