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    • 专利摘要:
    System (1) for verification of site inspections (2) with elements (3) subject to face-to-face inspection and method for said system, where the system comprises: - first sensors (5) for identifying and checking presence arranged in each of the elements (3), - at least one inspector terminal (6) with means of personal identification of the inspector (7), means for reading the sensors (4, 5) of short range, means of representation of text and/or graphics, means of communication with a central server (8) and means of marking and/or entering data, - at least, a central server (8) comprising: databases (8a, 8b, 8c, 8d, 8e) for traceability of the inspector and inspection operations, and means of communication with the inspector terminals ( 6). The invention includes the method for operating the system (1). (Machine-translation by Google Translate, not legally binding)
    公开号:ES2597170A1
    申请号:ES201630459
    申请日:2016-04-13
    公开日:2017-01-16
    发明作者:Pedro GUTIÉRREZ GARCÍA-DIEGO
    申请人:Guztion Sist De Informacion S L;Guztion Sistemas De Informacion SL;
    IPC主号:
    专利说明:

    SYSTEM OF VERIFICATION OF INSPECTIONS IN PLACES WITH ELEMENTS SUBJECT TO PRESENTIAL INSPECTION AND METHOD FOR SUCH SYSTEM
    DESCRIPTION 5OBJECT OF THE INVENTION

    The present invention relates to a system for verifying inspections at sites with elements subject to face-to-face inspection, and to a method specially designed for said system.
    BACKGROUND OF THE INVENTION

    Certain elements are subject to inspections, periodic or not, either by regulations or by choice of the interested party. Such elements include, for example, the fire protection and evacuation elements (fire extinguishers, equipped fire hydrants, lifting equipment, pressure equipment or elements, elevators, ovens, work elements at height, lashing, public lighting equipment and security or emergency lighting, PPE, water analytics, swimming pools ...), electrical installations and 20 boilers and gas installations, gas ramps, gas detectors, fumes, alarm systems, rental machinery etc. or elements that the regulations indicate to us the need for revisions with a periodicity level.

    Each element to be inspected or verified has a series of its own characteristics that must be checked, for example internal pressure, age, operation, stamping, integrity, combustion, charge, batteries, etc.

    At present, the audit of inspections of this type of elements subject to face-to-face inspection is carried out by delivery notes and minutes, many of them still on paper, and many times 30 by forgetfulness it can be left without verifying any of these characteristics, or in locations With many items to be inspected, one of them may remain unverified.

    On the other hand, the increasingly demanding quality standards require traceability in 35
    as for the competence of the inspector who performs the inspections, which is practically impossible to verify by the responsible person (auditor), unless he accompanies each inspector in each of the inspections performed, so it is done well by sampling, or either by examining the delivery notes or minutes, which in no case can ensure that the inspection has actually been carried out, that all the points have been verified, or that there is no fraud by impersonation of the inspector by another person without competition.
    DESCRIPTION OF THE INVENTION
    The verification system of inspections at sites with elements subject to face-to-face inspection of the invention has a configuration that optimally solves the technical problem posed, since: -secure the identification and competence of the inspector in each case. -You can provide a list of the elements to be reviewed at each site –and even of your specific location-, and a list of checks for each element of the site, without completing which the inspection will not be given as valid, avoiding delays to the time to review each and every one of the elements and perform each and every one of the checks on each of them. -It facilitates the management of incidents and their resolution.
     twenty
    According to the invention, the system comprises:
    -a first presence identification and verification sensors arranged in each of the elements subject to inspection existing at a site to identify the element and to ensure the presence of the inspector next to it in the identification and checks to be carried out, 25
    -at least, an inspector terminal with means of personal identification of the inspector, means of reading the short-range sensors, means of representing text and / or graphics to represent lists of items to be inspected and associated test relationships to each element subject to inspection and / or mapping of its location in images, means of intercommunication with a central server, means of marking and / or data entry and means of geolocation, for example a GPS module; obviously each inspector will carry his terminal to carry out his inspections and be identified,
    -at least, a central server comprising: a first database of inspectors and their competences, a second database of location coordinates, and of items subject to inspection and their coordinates, a third database of relationships 35
    for checking each item subject to inspection, a fourth database of inspection file records (virtual records), a fifth database of incidents, and external communication means to communicate, at least, with the inspector terminals and / or with digital records of administrations to telematically register items subject to administrative authorization. In addition, through this central server or through a connection to it, the auditor or person responsible for controlling the inspectors, their competencies and their work performed, may precisely perform these audits.

    The invention has provided that the sensors comprise NFC sensors, while the reading means of said sensors provided in the inspector terminals comprise 10 active NFC readers. Due to the short range of interaction between this type of sensors and readers (of the order of about 20 cm maximum), the face-to-face inspection of the inspector is assured in the place where each element to be inspected is located.

    The operation of the system is carried out by the method of the invention, which comprises the following steps implemented in the inspector terminals:
    A-initiation of said inspector terminal by personal identification of the inspector who carries it; identification of an item to be inspected by reading the first identification sensor thereof; geolocation of the inspector terminal; and sending the inspector and element identification and geolocation to the central server, 20
    B-reception of a list of checks to be performed on said identified element, from the central server,
    C-marking on the inspector terminal of each check carried out and its result, including conformity or incidence in case of disagreement,
    D-creation of an inspection file with the result of the checks and incidents and 25 sent to the central server,
    E-acceptance of review of item review from the central server, and
    F-repetition of stages A to E with each of the remaining elements to be inspected at the site;
     30
    comprising the following stages implemented in the central server:
    G-reception from an inspection terminal of: an inspector identification and that of an item to be inspected and its geolocation (which is that of the inspector terminal),
    H-verification of the inspector's competence to carry out the item checks by entering their identification in a first inspector database and 35
    their competences; in the affirmative case, recovery of the coordinates of the element from a second database of coordinates of locations, and of elements subject to inspection and their coordinates, and verification of the coincidence of said coordinates with the received geolocation; and in case of coincidence, recovery of a list of checks to be carried out in the element from a third database of relations of 5 checks of each element subject to inspection, recovery of the current incidents associated with the element from a fifth database of incidents ; and sending to the inspector terminal of said relationship of incidents and checks to be carried out,
    I-receipt of an inspection file with the result of the checks from the inspector terminal, verification that all the checks 10 of the relationship have been completed, and storage in a fourth database of inspection results record; or sending an error message to the inspector terminal if all the verifications of the relationship have not been completed,
    S-storage in a fifth database of incidents,
    K-sending conformity of the inspection to the inspector terminal, if all the previous 15 steps have been performed, and
    L-repetition of stages G to K with each of the elements (3) to be inspected.

    In this document, any site is understood as any site, open, closed, covered or uncovered, etc., where there are elements to be inspected, such as 20 elevators or building facilities, street lighting elements, etc. BRIEF DESCRIPTION OF THE DRAWINGS

    Figure 1 shows a schematic view of the system of the invention where various locations to be verified are schematized, such as a town hall, a museum and a football field.

    Figure 2 shows a detailed view of an inspector terminal and some elements (fire extinguisher and emergency light for example) subject to inspection with their sensors. 30
    DESCRIPTION OF A PRACTICAL EMBODIMENT OF THE INVENTION

    The inspection system (1) for site inspections (2) with elements (3) subject to face-to-face inspection comprises (see fig. 1): 35
    -a first sensors (5) (see fig 2) for identification and presence checking arranged in each of the elements (3) subject to inspection existing in any location (2), to identify the element (3) and to ensure the presence of the inspector (7) next to him during the identification,
    -at least, an inspector terminal (6) with inspector's personal identification means (7), 5 short-range sensor reading means (4, 5), text and / or graphic representation means for presentation of a list of items to be checked and / or a relationship of checks associated with each item (3) subject to inspection and / or a map of its location, means of intercommunication with a central server (8), marking means and / or data entry, and geolocation means - for example a GPS (6e) - to be able to verify the position of the inspector terminal (6) during the checks and that it effectively coincides with the position of the inspected elements (3); Optionally, it may also include means for capturing images - such as an integrated camera - for recording images related to checks (correct or defective elements, etc.), 15
    -at least, a central server (8) comprising: a first database (8a) of inspectors and their competencies, a second database (8b) of location coordinates (2), and of subject elements (3) upon inspection and its coordinates, a third database (8c) of checking relationships of each element (3) subject to inspection, a fourth database (8d) of inspection file registration (virtual acts 20), a fifth database (8e) of incidents, and external communication means to communicate, at least, with the inspector terminals (6) and that are optionally prepared to also communicate with digital records (30) of administrations (31) when administrative authorization of the inspected item (3) is required, so that for new installations subject to authorization, where commissioning is authorized after a first inspection, it is registered electronically (and possibly authorized) ) with its initial values, reference number, etc., and also said date is recorded for the purpose of guarantees.

    Optionally, it is provided that the system (1) can comprise, as seen in Figure 1, a few second sensors (4) for identification of specific locations (2) where there are elements (3) subject to face-to-face inspection that will be inspected; the second database (8b) comprising a list of elements (3) subject to inspection at each of said specific locations (2). In this way the inspector (6) can be helped, within an enclosure such as a town hall or a sports field, to identify and locate the 35
    elements (3) to inspect; while in other locations, such as in the review of street lighting luminaires, it may not be necessary. These second sensors (4) will usually be arranged in the accesses to said specific locations (2).
     5
    It is also provided that the central server (8) may additionally comprise a sixth database (8f) of mapping the elements (3) subject to inspection to help the inspector to locate the elements (3) graphically, either within a concrete enclosure or location (2) or on public roads (for example a streetlight). Obviously the different databases are virtual and can be implemented in the data storage media of the central server (8).

    In addition, it is provided that the sensors (4, 5) comprise NFC sensors (ideally passive), while the reading means of the short-range sensors (4, 5) provided in the inspector terminals (6) comprise, at less, an active NFC reader (6a). 15 The short range of this technology ensures the face-to-face inspection of the inspector in the place of the element (3).

    For its part, the inspector identification means provided in the inspector terminal (6) preferably comprise a fingerprint reader (6b) (see fig. 2) and / or a personal password input field, not shown, associated to a launcher (6c) - equally virtual - of the inspection procedure at the inspector terminal (6). This allows the use as inspector terminals (6) of various portable terminals such as smart phones or tablets existing in the market, lowering costs, and authenticates without impersonation the inspector (7). 25

    As for the text, image and / or graphic representation means of the inspector terminal (6), they normally comprise a screen (6d) and / or a printer, not shown. In the first case, the screen of the smart phone or tablet would also be used. In addition, the inspector terminal (6) may comprise image capture means -30 a camera, not shown, to record images related to the checks that can be included in the virtual inspection records and incidents.

    It is also provided for the system (1) of the invention the possibility of having at least one external test terminal (9) (see fig. 1), comprising means of
    intercommunication with the central server (8), and means of validation and authentication –logged and password- associated with a specific site (2) or group of sites. This particular terminal could be destined to the client or owner of a site (2), so that he can only access the data of the same and can verify at any time the checks or inspections that have been done to them. 5

    Finally, the system (1) could also comprise an incident manager (20) with means of intercommunication with the central server (8), to manage the resolution of the incidents that the inspector (7) cannot solve in situ, so that the central server (8) transmits the incident to said manager (20) - normally a computer system of a supplier of 10 repairs - and receives notice of it once solved by the human or material means, not represented, associated with said manager (twenty).

    As for the external communication means of the central server (8) and the intercom means of the inspector terminals (6), external check terminals (9) 15 and / or incident managers (20) to communicate with the server central (8) preferably comprise two links (10) to the internet (11) (for example 4G mobile or any technology capable of data transmission) and / or data messaging systems. Likewise, internet (11) will preferably be used to communicate with the digital records (30) of administrations (31) for the registration of items subject to authorization or 20 administrative records.

    The procedure for verifying inspections at sites (2) with elements (3) subject to face-to-face inspection comprises the following stages implemented in an inspector terminal (6): 25
    A-initiation of said inspector terminal (6) by personal identification of the inspector (7) that carries it, identification of an element (3) to be inspected by reading a first sensor (5) to identify it, geolocation of the terminal inspector (6), and sending of the inspector and element identification (3) and the geolocation to the central server (8),
    B-reception from the central server (8) of a list of checks to be performed on said identified element (3),
    C-marking on the inspector terminal (6) of each check performed and its result (including incidents),
    D-creation of an inspection file with the result of the checks and incidents and sending to the central server (8), 35
    E-acceptance of revision of the element (3) from the central server (8); Y
    F -repeat stages A through E with each of the remaining elements (3) to be inspected at the site (2)

    comprising the following stages implemented in the central server (8): 5
    G-reception from an inspection terminal (6) of: an inspector identification and an item (3) to be inspected and its geolocation,
    H-verification of the competence of the inspector (7) to carry out the checks of the element (3) by entering its identification in a first database (8a) of inspectors and their competences; if so, recovery of the coordinates of the element (3) from a second database (8b) of coordinates of locations (2), and of elements (3) subject to inspection and their coordinates, and verification of the coincidence of said coordinates coordinates with the geolocation received; and in case of coincidence recovery of a list of checks to be carried out in the element (3) from a third database (8c) of verification relationships of each element (3) subject to inspection, 15 recovery of the current incidents associated with the element (3) from a fifth database (8e) of incidents; and sending to the inspector terminal (6) of said relationship of incidents and checks to be carried out,
    I-reception of an inspection file with the result of the checks from the inspector terminal (6), verification that all 20 checks of the relationship have been completed, and storage in a fourth database (8d) of registration of inspection results; or sending an error message to the inspector terminal (6) if all the checks of the relationship have not been completed,
    J-storage in a fifth database (8e) of the incidents,
    K-sending conformity of the inspection to the inspector terminal (6), and 25
    L-repetition of stages G to K with each of the elements (3) to be inspected.

    It is envisaged, within the invention, the possibility of previously identifying a specific site (2) or establishment before reviewing the elements (3) arranged therein, to help the inspector to locate them, and to go from a site to another 30 so that their activity is recorded (for example, the inspector can carry out his inspections first to a town hall, then to a museum and then to a football stadium as seen in figure 1 identifying and identifying himself in each from them). For this purpose, a routine of enumeration of elements (3) existing in a specific location (2), comprising the following previous steps (that is, before the 35
    First stage A of the procedure) at the inspector terminal (6):
    M -identification of a specific location (2) by: initiation of the inspector terminal (6) by personal identification of the inspector (7), reading of a second location identification sensor (4), simultaneous geolocation of the position of the terminal inspector (6), and sending the site identification (2), geolocation of terminal 5 and inspector identification (7) to the central server (8),
    N-reception from the central server (8) of a list of the items (3) subject to inspection by said inspector (7) (which would not include those that have unresolved issues or those that the inspector has no powers to inspect) at said location (2) and its location (ideally mapped) therein, 10

    comprising the following previous steps in the central server (8):
    O-reception from an inspection terminal (6) of: an inspector identification, and of a location (2) and its geolocation,
    P- retrieval of the coordinates of the site (2) from the second database 15 (8b); checking the coincidence of the coordinates of the location of the site (2) and the geolocation of the inspector terminal (6); verification of the competencies of the inspector (7) by entering his identification in a first database (8a) of inspectors and their competences; recovery of a list of the elements (3) subject to inspection within the competences of the inspector (those of his competence that do not have 20 incidents for example) at the site (2) and of his position from the second database (8b ); and sent to the inspector terminal (6) of the list of elements (3) that must be inspected within its powers and its location at the site (2).

    Both in this case or in general, the procedure may comprise a previous stage of recovering a map with the location of the elements (3) at the site (2) from a sixth database (8f) of the central server's mapping (8), to show it in the inspector terminal (6) and facilitate its location.

    The procedure can additionally comprise a problem resolution checking routine 30 comprising the following steps implemented in the central server (8):
    Q-recovery of the incidents from the fifth database (8e) of incidents and sending them and their location to an incident manager (20),
    R-receipt of notification of incident solution from the incident manager (20), and
    S-deletion of the incidence in the fifth database (8e). In the same way, the staff 35
    associated to the manager (20) could work with an inspector terminal (6) to be notified and / or notify the solution of an incident, with the same possibilities to identify the element (3), provide the incidents, facilitate the position and record images, within the invention.
     5
    It is also provided that it may additionally comprise an external checking routine comprising the following steps implemented in the central server (8):
    T-reception of an access request from an external test terminal (9),
    U-validation of access through validation and authentication means associated with a specific site (2) or group of sites (2), and sending the inspection files and the incidents related to said site (2) or group of locations (2) to the external test terminal (9).

    A routine for registering new elements (3) in registers (30) of the competent administrations (31) comprises the following additional steps implemented in the central server 15 (8), after step I of receiving the inspection file of the element ( 3) with the result of the checks from the inspection terminal (6), which includes the verification that all the checks of the relationship have been completed, and the storage in a fourth database (8d) of recording the results of inspection, or sending an error message to the inspector terminal if all 20 checks of the relationship have not been completed:
    V-check in the inspection file of the item that all checks have been made and that there are no incidents, and
    W-sending a copy of the file with digital signature to a digital record (30) of the corresponding administration (31). 25
    In this way, the element (3) can be telematically registered for administrative purposes with its initial values, registration number, etc., which will be the ones verified in the inspection. In addition, the administrative record and / or the record in the fourth database (8d) will serve as the basis, with its date, for the purpose of guarantees.
     30
    The procedure has provided that the reading of the sensors (4, 5) is carried out through very short range means, such as NFC means.

    Regarding the sending of data between the central server (8) and the inspector terminals (6), incident managers (20), external check terminals (9) and / or records (30 digital 35).
    administrations are preferably carried out through the internet and / or data messaging (wireless when appropriate).

    For its part, the authentication of the inspector (7) is ideally done through fingerprint reading and / or login (username and password). 5

    Sufficiently described the nature of the invention, as well as the manner in which it is carried out in practice, it should be noted that the provisions indicated above and represented in the attached drawings are subject to modifications in detail as long as they do not alter the fundamental principle. Especially, the protection of the procedure 10 also encompasses other embodiments that essentially comprise the same stages, even in different order, provided they achieve the same results.


     fifteen




     twenty




     25




     30




     35
    权利要求:
    Claims (20)
    [1]

    1.-System (1) for verification of inspections at sites (2) with elements (3) subject to face-to-face inspection characterized in that it comprises:
    - first sensors (5) for identification and presence checking arranged in each one of the elements (3) subject to inspection at a location (2),
    -at least, an inspector terminal (6) with means of personal identification of the inspector (7), means of reading the sensors (4, 5) of short range, means of representing text and / or graphics, means of intercommunication with a central server (8), means of marking and / or data entry, and means of geolocation, 10
    -at least, a central server (8) comprising: a first database (8a) of inspectors and their competencies, a second database (8b) of location coordinates (2), and of subject elements (3) on inspection and its coordinates, a third database (8c) of checking relationships of each element (3) subject to inspection, a fourth database (8d) of inspection file registration, a fifth 15 database (8e) of incidents, and external communication means to communicate, at least, with the inspector terminals (6).

    [2]
    2. System (1) for verification of inspections at sites (2) with elements (3) subject to face-to-face inspection according to claim 1 characterized in that additionally 20 comprises some second sensors (4) for identification of specific locations (2) where elements exist (3) subject to face-to-face inspection that will be inspected; the second database (8b) comprising a list of elements (3) subject to inspection at each of said specific locations (2).
     25
    [3]
    3. System (1) for verification of inspections at sites (2) with elements (3) subject to face-to-face inspection according to any of the preceding claims characterized in that the sensors (4, 5) comprise NFC sensors, while the reading means of the short range sensors (4, 5) provided in the inspector terminals (6) comprise at least one active NFC reader (6a). 30

    [4]
    4. System (1) for verification of inspections at sites (2) with elements (3) subject to face-to-face inspection according to any of the preceding claims characterized in that the central server (8) additionally comprises a sixth database (8f) of mapping of the elements (3) subject to inspection. 35

    [5]
    5. System (1) for verification of inspections at sites (2) with elements (3) subject to face-to-face inspection according to any of the preceding claims characterized in that the inspector identification means provided in the inspector terminal (6) comprise a fingerprint reader (6b) and / or a personal password input field associated with a launcher (6c) of the inspection procedure at the inspector terminal (6).

    [6]
    6. System (1) for verification of inspections at sites (2) with elements (3) subject to face-to-face inspection according to any of the preceding claims 10 characterized in that the text and / or graphic representation means of the inspector terminal ( 6) comprise a screen (6d) and / or a printer.

    [7]
    7. System (1) for verification of inspections at sites (2) with elements (3) subject to face-to-face inspection according to any of the preceding claims 15 characterized in that the inspector terminal (6) comprises means for capturing images to register images related to checks.

    [8]
    8. System (1) for verification of inspections at sites (2) with elements (3) subject to face-to-face inspection according to any of the preceding claims 20 characterized in that it comprises, at least, an external test terminal (9), comprising means of intercommunication with the central server (8), and means of validation and authentication associated with a particular site (2) or group of sites.

    [9]
    9. System (1) for verification of inspections at sites (2) with elements (3) 25 subject to face-to-face inspection according to any of the preceding claims characterized in that it comprises an incident manager (20) with means of intercommunication with the central server .

    [10]
    10. System (1) for verification of inspections at sites (2) with elements (3) 30 subject to face-to-face inspection according to any of the preceding claims characterized in that the external communication means of the central server (8) and the intercommunication means of the inspector terminals (6), external check terminals (9), incident managers (20) to communicate with the central server (8) comprise two links (10) to the internet (11) and / or messaging systems of data. 35

    [11]
    11.-System (1) for verification of inspections at sites (2) with elements (3) subject to face-to-face inspection according to any of the preceding claims characterized in that the external communication means of the central server (8) are prepared to communicate with records digital (30) of administrations (31). 5

    [12]
    12.-Procedure for verifying inspections at sites (2) with elements (3) subject to face-to-face inspection characterized in that it comprises the following stages implemented in an inspector terminal (6):
    A-initiation of said inspector terminal (6) by personal identification of the inspector (7) 10 that carries it, identification of an element (3) to be inspected by reading a first sensor (5) to identify it, geolocation of the terminal of inspector (6), and sending of the inspector and element identification (3) and geolocation to the central server (8),
    B-reception of a list of checks to be performed on said identified element (3), from the central server (8), 15
    C-marking on the inspector terminal (6) of each check performed and its result,
    D-creation of an inspection file with the result of the checks and incidents and sending to the central server (8),
    E-acceptance of revision of the element (3) from the central server (8); Y
    F-repetition of stages A to E with each of the remaining elements (3) to be inspected at the site (2);
    comprising the following stages implemented in the central server (8):
    G-reception from an inspection terminal (6) of: an inspector identification and an item (3) to be inspected and its geolocation, 25
    H-verification of the competence of the inspector (7) to carry out the checks of the element (3) by entering its identification in a first database (8a) of inspectors and their competences; in the affirmative case, recovery of the coordinates of the element (3) from a second database (8b) of location coordinates (2), and of elements (3) subject to inspection and their coordinates, and coincidence check 30 of said coordinates with the geolocation received; and in case of coincidence recovery of a list of checks to be carried out in the element (3) from a third database (8c) of verification relationships of each element (3) subject to inspection, recovery of the current incidents associated with the element (3) from a fifth database (8e) of incidents; and sending to the inspector terminal (6) of said incident relationship and 35
    of checks to be performed.
    I-reception of an inspection file with the result of the checks from the inspector terminal (6), verification that all the checks of the relationship have been completed, and storage in a fourth database (8d) of registration of inspection results; or sending an error message to the inspector terminal (6) if all relationship checks have not been completed,
    J-storage in a fifth database (8e) of the incidents,
    K-sending conformity of the inspection to the inspector terminal (6), and
    L-repetition of stages G to K with each of the elements (3) to be inspected.
     10
    [13]
    13.-Procedure for verifying inspections at sites (2) with elements (3) subject to face-to-face inspection according to claim 12 characterized in that it additionally comprises a routine of enumeration of elements (3) existing in a specific location, comprising the following previous steps at the inspector terminal (6):
    M -identification of a specific location (2) by: initiation of the 15 inspector terminal (6) by personal identification of the inspector (7), reading of a second location identification sensor (4), simultaneous geolocation of the terminal position of inspector (6), and sending the identification of the site (2), geolocation of the terminal and identification of the inspector (7) to the central server (8),
    N-reception from the central server (8) of a list of the elements (3) subject to inspection 20 by said inspector (7) located at said location (2) and its location therein,
    comprising the following previous steps in the central server (8):
    O-reception from an inspection terminal (6) of: an inspector and site identification (2) and its geolocation, 25
    P- retrieval of site coordinates (2) from the second database (8b); checking the coincidence of the coordinates of the location of the site (2) and the geolocation of the inspector terminal (6); verification of the competencies of the inspector (7) by entering his identification in a first database (8a) of inspectors and their competences; recovery of a list of the elements (3) subject to inspection within the inspector's competences at the site (2) and their position from the second database (8b); and sent to the inspector terminal (6) of the list of elements (3) that must be inspected within its powers and its location at the site (2).

    [14]
    14.-Procedure for verifying inspections at sites (2) with elements (3) subject to face-to-face inspection according to any of claims 12 or 13 characterized in that it comprises a previous stage of recovering a cartography with the location of the elements (3) from a sixth database (8f) of central server mapping (8).
     5
    [15]
    15.-Procedure for verifying inspections at sites (2) with elements (3) subject to face-to-face inspection according to any of claims 12 to 14, characterized in that it additionally comprises an incident resolution verification routine comprising the following steps implemented in the central server (8):
    Q-recovery of the incidents from the fifth database (8e) of incidents and sending them and their location to an incident manager (20),
    R-receipt of notification of incident solution from the incident manager (20), and
    S-deletion of the incidence in the fifth database (8e).

    [16]
    16.-Procedure for verifying inspections at sites (2) with elements (3) 15 subject to face-to-face inspection according to any of claims 12 to 15 characterized in that it comprises an external checking routine comprising the following steps implemented in the central server ( 8):
    T-reception of an access request from an external test terminal (9),
    U-validation of access through validation and authentication means associated with a specific location (2) or group of locations (2), and sending inspection files and incidents related to said location (2) or group of locations (2) to the external test terminal (9).

    [17]
    17.-Procedure for verifying inspections at sites (2) with elements (3) 25 subject to face-to-face inspection according to any of claims 12 to 16 characterized in that it comprises a routine of initial registration of an element to be inspected, comprising the following steps additional ones implemented in the central server (8), after step I of receiving the inspection file of a new element (3):
    V-check in the inspection file of the item that all checks have been made and that there are no incidents, and
    W-sending a copy of the file with digital signature to a digital record (30) of the corresponding administration (31).

    [18]
    18.-Procedure for verifying inspections at sites (2) with elements (3) 35
    subject to face inspection according to any of claims 12 to 17 characterized in that the reading of the sensors (4, 5) is carried out through NFC means

    [19]
    19.-Procedure for verifying inspections at sites (2) with elements (3) subject to face-to-face inspection according to any of claims 12 to 18 characterized in that the sending of data between the central server (8) and the inspector terminals ( 6), incident managers, external verification terminals (9) and / or digital records (30) of administrations are carried out through the internet and / or data messaging.

    [20]
    20.-Procedure for verifying inspections at sites (2) with elements (3) 10 subject to face-to-face inspection according to any of claims 12 to 19, characterized in that the authentication of the inspector (7) is carried out through fingerprint reading and / or introduction of personal password.
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    同族专利:
    公开号 | 公开日
    ES2597170B1|2017-11-23|
    ES2597170B8|2018-05-08|
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    US20060235611A1|2005-04-18|2006-10-19|Dataforensics, Llc|Systems and methods for recording and reporting data collected from a remote location|
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    WO2011054029A1|2009-11-06|2011-05-12|Verified International Pty Ltd|Method and system for providing maintenance verification|
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    ES201630459A|ES2597170B8|2016-04-13|2016-04-13|SYSTEM OF VERIFICATION OF INSPECTIONS IN PLACES WITH ELEMENTS SUBJECT TO PRESENTIAL INSPECTION AND METHOD FOR SUCH SYSTEM|ES201630459A| ES2597170B8|2016-04-13|2016-04-13|SYSTEM OF VERIFICATION OF INSPECTIONS IN PLACES WITH ELEMENTS SUBJECT TO PRESENTIAL INSPECTION AND METHOD FOR SUCH SYSTEM|
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