• 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:
    System and method of motorized closing. Motorized closing system, and drive procedure associated with said system, intended for practicable, oscillo-swing and sliding closures, with visible or hidden profiles, in which the whole of the enclosure is formed by continuous surfaces, flat and without handles or projections , the entire system being managed by a control module that receives signals from an optical sensor and a magnetic sensor, and in which the control module interprets said signals and sends driving instructions to a motorized blocking module connected to a part. of drag that moves a logic maneuvering hardware that has a series of positioning enclaves for the swing movement, for the oscillating movement and for the sliding movement, just as it can include a displacement module also motorized, said elements remaining system and its electrical-electronic connection hidden and protected. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2694598A1
    申请号:ES201700348
    申请日:2017-03-31
    公开日:2018-12-21
    发明作者:Pascual MARTINEZ CABAÑERO;Sergio Cristóbal MARTINEZ GARCÍA;Ignacio LAUWERS ALONSO
    申请人:Cabanero S L;Cabanero Sl;
    IPC主号:
    专利说明:

    DESCRIPTION

    System and method of motorized closing.

    Field of the invention 5

    The present invention relates to a motorized closing system, in particular intended for enclosures formed by glazed surfaces, opening practicable, tilt-and-slide and sliding, in which the whole of the enclosure is constituted by continuous surfaces, flat and without handles or projections, with the carpentry seen or hidden, the whole system 10 being managed by a control module in connection with a series of sensors, allowing the opening mode desired by the user, and also achieving respecting the tightness of the enclosure.

    In turn, the present invention defines an opening and closing method based on a system of characteristics similar to that of the previous motorized closing system.

    The field of application of the present invention is the industrial sector related to the production, distribution and marketing of enclosure systems, mainly the sector related to windows, and more specifically with tilt-and-slide windows and sliding windows.

    State of the art

    The systems of enclosures are known, not only in the industrial sector of manufacturers, 25 distributors and dealers of this type of enclosures, but it is known by the general public. As is known, the conventional enclosures are constituted by a lateral frame that has a system that allows an axis of rotation alternative to the conventional wing, so the closing and opening system consists of a crank with which you can choose to open the window around a horizontal or vertical axis, or in any case 30 by a sliding or sliding movement.

    By way of example we highlight the patent EP2080863 that defines a system of fittings for tilt and turn windows, but the common problem of all this type of enclosures is that, after the time, in any abrupt act of maneuver of the crank, or similar manual device, the system is disengaged and breaks the rotation system. These systems are generally composed of a plurality of small elements such as springs or levers, or as in the case of said internal strips EP2080863, so the fact of the breakage or disengagement of the handle generates not only economic problems of repair of the damaged parts, or total change of the entire window, but generates 40 safety problems, and generates problems in the comfort, tightness or soundproofing of the room where the enclosure is placed.

    Face to solve this problem arises the need to develop enclosures that do not require controls or manual drives, for which stands out for example the patent DE102010056352 that discloses the existence of a closure system for building doors that is powered by a motor and it has an evaluation element that manages the authorizations of electronic keys of the different users of said door, in such a way that when the key is brought to a sensor, said evaluation element allows or not the opening of the door. This document introduces the possibility of not needing a drive handle, but the sets of the elements of the opening system of the present application are not admissible in a door, among other things because a door only beats around a vertical axis and does not it can oscillate around a horizontal axis, and it can not have the option to perform both movements indistinctly, that is, to make a movement
    Tilt-swing or sliding. In this regard, in DE102010056352, the communication between the evaluation unit and the closing is carried out internally by the body of the door, and there is no means of controlling whether the door is open or closed, which does not solve the problem of security, since although it analyzes if there is permission, it does not guarantee the closure after opening, nor does it have any sensor to ensure closure, nor does it solve the 5 problems in the comfort and sealing of the room where the door is placed. Furthermore, as has been advanced, the means of the present invention differ from those of DE102010056352 and the application of said means is incompatible between both enclosures.

    In this regard, solutions incorporating radiofrequency means are highlighted, as for example the patent US6023224 disclosing a system composed of a door with a radiofrequency mechanism that, in conjunction with a wireless remote tool or key, allows the opening of said door. This solution presents the same problem as the previous enclosure, although it includes elements such as video surveillance cameras or lighting devices to improve the safety of the environment. fifteen

    It is also worth highlighting another type of opening systems, for example the conventional entrance doors to public transport or public spaces consisting of sliding enclosures such as that disclosed in patent EP0822310; solutions as defined in patent JP2013159129 disclosing an intelligent opening system for 20 vehicle gates; or what is stated in JPH10136819 disclosing a door for pets, all of them consisting of a sensor that detects the presence of the user or the pet and allows the opening of the enclosure, which also solves the possibility of not needing handles, but neither the fittings are compatible for the type of enclosure, nor does it solve the problems of detecting the opening or closing of the door, sealing is not achieved as in the case of the doors of shops or public transports, and even in the The pet's case requires that it has a built-in complementary sensor.

    Taking into account the existing registers in the state of the art it can be said that there are automatic enclosure systems, but they are defined for doors or enclosures that do not allow a multi-option system of movements, as is the case of the oscillo- swing or sliding, in addition those existing systems do not analyze the situation after the opening of said door, and finally it should be noted that for the typology of tilt-swing windows there is no record that incorporates an autonomous system and motorized opening.

    In view of the foregoing, the present invention resolves that it is possible to dispense with cranks and actuating elements and the technical problem related to breakages of manual elements such as conventional handles or cranks for this typology of 40 enclosures, whether doors or windows, resolves the security problem derived from said breaks and presents the improvements that an autonomous detection system has, and allows the detection of the opening or closing situation of said enclosure which solves problems both safety problems as well as comfort or leak tightness of the stay where the enclosure is located. Four. Five

    Description of the invention

    The invention relates to a motorized closing system intended for enclosures, both doors and windows, in which the conventional fitting of a conventional window 50 is transformed by an electronic system completed by an electro-mechanical system, capable of transmitting the wish and user's will to open or close the enclosure element, without physical contact with the enclosure and without the need for the system to require handles or cranks. In this way an enclosure formed by continuous surfaces is obtained,
    flat and without projections, neither entrants, nor protrusions, leaving the mechanisms of drives as the rest of structural elements transformed or hidden.

    The enclosure system object of the present invention comprises the conventional elements for this type of enclosures, such as the perimeter and interior carpentry 5, constituted by profiles seen that are fixed to the enclosure gap, these profiles being able to be of different materials such as PVC or aluminum; or profiles or hidden carpentry systems, in which the sheet itself conceals the profiles or glass of the enclosure; the sheet or glass of the enclosure itself; the squares or upper and lower compass that allow the movement with respect to the leaves and their profiles; and the plurality of bolt or lock fittings bolted, both in the form of a flat plate and in the form of a square; being the characteristic elements of this new invention:

     A control module, consisting of a programmable base plate for supporting the system management electronics, electrically fed directly to the conventional electrical network, and which has a secondary power supply based on an accumulator; At least one optical sensor, which allows the reflection of the light of a transmitting diode on a receiver diode, whose functionality is to detect the user when he brings the hand or any other object to said sensor. This sensor is connected to the control module and sends the appropriate signals when it detects the user.

     A blocking module, connected to the control module, and composed of a control unit that receives the instructions of the control module, and has a reduction gear and a drive motor of the system. 25

     A traction piece in connection with the motorized unit, whose displacement is conditioned by the motor of the blocking module, and which uses the profile of the fitting itself as a guide.
     30
     A logical maneuver fitting, in connection with the dragging part, and which has at least two enclaves where it is positioned due to the movement of the dragging part, with an enclave being used for the opening action in swinging mode, and another enclave intended for the action of opening in oscillating mode, or an enclave for the displacement action with respect to a guideline in the case of sliding or sliding opening. This logical maneuver fitting is in connection with the plurality of bolted fittings, in such a way that the movement of said fitting conditions the closing or releasing state of the bolts or bolts.

     At least one magnetic sensor, which is responsible for interpreting and detecting the status 40 of the window, that is, whether it is open or closed, and in which said magnetic sensor is connected to the control module, which in turn is connected to the motorized module, in such a way that the control module interprets the signal received from the magnetic sensor and sends the appropriate order to the motorized module.
     Four. Five
     And the electrical-electronic inter-connection that communicates between them, which is centralized in the control module, and internally traverses the internal carpentry of the window along its profiles.

    Additionally, the invention can incorporate, for certain types of enclosures, a displacement module, connected to the control module, and composed of a controller unit that receives the instructions of the control module, and has a control module.
    reduction gear and a drive motor of the system that can move a skate with which the blade moves.

    In an embodiment of the invention, the system functions in the following manner. The user operates the system by passing the hand, or other object, which allows the detection of the optical sensor of the window, thus generating the command to actuate. Said detection results in a signal or order that is transmitted to the control module. The control module receives the order and transmits the commissioning order to the motorized module, in such a way that it pushes the piece of drag that the profile itself uses as a guide and that moves the logic maneuvering hardware, which is connected to the rest of closing elements 10 bolts linked along the perimeter of the enclosure profiling.

    At this point it is important to define that, depending on the user's exposure to the optical sensor, the control module sends to the motorized module an opening signal in swing mode, an oscillating mode opening or an opening in sliding / sliding mode. 15 It is also necessary to re-emphasize that the magnetic sensor detects whether the enclosure is in the open or closed position, so it also sends the signal to the control module, which once interpreted in the control module sends the instruction corresponding to the module motorized.
     twenty
    In any case, returning to the sending of the signal that defines the opening mode, when the signal is sent to open the enclosure in tilting mode, the logic maneuvering hardware is moved to a first enclave, so that the bolts of the closing elements are released, and at that moment a pressure is produced on the sealing gums located between the leaf and the frame that causes a relative displacement between the leaf and the frame sufficient for the leaf to be loose and open. in rocker mode.

    When the opening signal is in the oscillating mode, the exposure time to the optical sensor is long enough for the motor to push the dragging and hardware part of the logical maneuver until the first enclave, and the optical sensor continues sending the signal of exposure to the control module which interprets that the desired opening mode is the oscillating mode, therefore it sends the command to the motorized module to continue working until the logical maneuver fitting is positioned in the second enclave. This is possible because when the exposure to the optical sensor continues for a prolonged time and the first enclave has been exceeded, the magnetic sensor continues to understand that the window is not open, and therefore not for the motor, continuing the movement until it is moved until the second enclave, allowing the opening in oscillo mode, since it unlocks the compass, reaching the end of the engine's travel, which results in the engine stopping and therefore at that moment the actions are considered finished, and leaves the different closing pieces are also free to enable said movement.

    In other embodiments, such as for a sliding opening, when the control module interprets that the desired opening mode is the sliding mode, according to the proper structure of the enclosure, it sends the command to the displacement module and this moves the fitting 45 or skate, in this case guided horizontally to a section of toothed belt located in the running rail of each frame, said rail being anchored at its ends as a rack, although this rack can be replaced by a threaded rod that acts as an auger or spindle
     fifty
    In another embodiment, which is dispensed with the displacement module, the regulation of the opening of the enclosure, whether in the tilt opening mode, in the swing opening mode, and even for the coupling for sliding type enclosures , is through the manual action of the user.
    When the enclosure, say for example a window, is open, regardless of whether it corresponds to a swing, tilt or shift position, controlled by the magnetic sensor, the necessary drive to close it is in such a way that the user must proceed to move the sheet, closing the window, until it is lodged in the frame. At that moment, the magnetic sensor considers that the blade is closed, and the starting order of the maneuvering motor originates, in the opposite direction to that of the opening, and whose final effects are the movement of the pins of the blade. in their places of accommodation in the frame, giving rise, derived from the geometry thereof, a pressure of the sealing gums of the enclosure.
     10
    Once the end of the stroke is reached, there is an overexertion of the engine that generates its stop, called an electronic clutch. The physical actions required are very little effort for the user, since it only means keeping the sheet just a few seconds, not to press it in any way.
     fifteen
    In case the enclosure is not perfectly closed, the magnetic sensor does not send the signal to the stop motor, so the user can detect if there has been any failure in closing the enclosure, for example, a window.

    It should be noted that the sequence of the different openings is programmed in the programmable base plate 20 and in conjunction with or by the optical sensor.

    To finish, for constructive reasons, mainly the size of the glass or the definition of the profiles, the location of certain elements of the system, such as the magnetic sensor or the control module, can vary in their location, as well as the connection between them. electric. These possible variations must also be taken into account given that the profiles in which these elements are housed are sometimes subject to significant wind load and other normatively defined horizontal thrusts.

    Once the system is defined, proceed to define the general steps of the opening method 30 for any of the enclosure typologies defined in the present invention, the system being defined by the following steps:

    a) the optical sensor detects the user.
     35
    b) the optical sensor sends a detection signal to the control module.

    c) the control module sends an opening command to the motorized module.

    d) the motorized module displaces the drive part. 40

    e) the dragging part modifies the position of the logical fitting, until it reaches the first enclave of swing opening mode, modifying the situation of the plurality of bolted fittings of the carpentry of the enclosure.
     Four. Five
    f) the optical sensor sends a signal to the control module whether or not it detects the user and sends a signal to the control module.

    g) the magnetic sensor detects the position of the enclosure and sends a signal to the control module. fifty

    h) the control module analyzes said signals and sends a motorized module instruction.

    i) the dragging part modifies the position of the logical fitting, according to the indications of the motor module, modifying the situation of the plurality of bolted fittings of the carpentry of the enclosure.

    j) the magnetic sensor checks that the window is open and sends a signal to the control module.

    k) the control module sends the instruction to stop the motor module.

    For the embodiments that have a displacement module, the steps follow with the control module sending the instruction to the displacement module; the magnetic sensor checks that the enclosure is open and sends a signal to the control module; and the control module commands the stop command to the displacement module.

    At this point it should be noted that, for example, when in step f) the optical sensor does not detect the user; the magnetic sensor detects whether the enclosure is open or not; if the magnetic sensor detects that the enclosure is open, it sends a signal to the control module; the control module sends an instruction to stop the motor module; and therefore the enclosure is open in swing or sliding mode depending on the configuration of the hardware and the carpentry of said enclosure. twenty

    If when in step f) the optical sensor detects the user, the optical sensor sends a signal to the control module; the control module gives an order to the motorized module to continue with the opening, the logical fitting reaches the second enclave; the magnetic sensor sends a signal of whether the enclosure is open or not; the enclosure is open, the magnetic sensor sends a signal to the control module; the control module sends an instruction to stop the motor module; and the enclosure is open in oscillating mode.

    For the closure of the system, in an embodiment in which the displacement module is omitted, the procedure is just the inverse one, and it is based on positioning the leaf in the frame so that the magnetic sensor detects said opening position, and the control module sends the instructions to the motorized module in the opposite direction to that of the opening.

    To complete the description that is being made and in order to help a better understanding of the characteristics of the invention, an assembly of drawings is included as an integral part of the same, in which the following has been represented with an illustrative and non-limiting character:

    Fig. 1 is a perspective representation of the motorized closing system in an exploded tilt-and-turn window. 40

    Fig.2 is a schematic representation of the interconnection between the different elements that form the closure system.

    Fig.3 is a perspective representation of the motorized closing system in a tilt-and-turn window 45 different from that of the first figure, said window being mounted.

    Fig. 4 is a perspective representation of the motorized closing system in an exploded sliding window.
     fifty
    Fig.5 is a schematic representation of the interconnection between the different elements that form the motorized closing system required for the last two figures


    Description of the figures

    Figure 1 is the representation of the preferred embodiment of the motorized closing system object of the present invention. In said figure it can be seen that the tilt and turn window closing system formed by the following elements:

     The perimeter woodwork (1) of the window, consisting of horizontal and vertical profiles that are joined together by means of brackets, and that are fixed to the opening of the enclosure;
     10
     The internal carpentry (2) of the window, which is protected by sheet (3) or glass of the enclosure, also constituted by conventional profiles, and that in its outer perimeter can have a rubber (31) that ensures the tightness of the set ; the own leaf (3) or window glass.
     fifteen
     The upper square or compass (4), which has the arm that allows movement with respect to a vertical axis, and which also has a hinged plate that allows movement with respect to a horizontal axis.

     The lower square or compass (40) that allows movement with respect to a vertical axis 20, in connection with the upper compass (4).

     The plurality of locking or closing fittings in the form of both a flat bolt (41) and a bolted square (41 '), and distributed along the perimeter of the internal carpentry (2) of the window. 25

     A control module (5), consisting of a programmable base plate for supporting the system's management electronics, with a power supply medium directly connected to the conventional electricity network (52), and which has a power source secondary feeding; and that is also integrated into the internal carpentry (2) of the window.

     An optical sensor (6), which allows the reflection of the light of a transmitting diode on a receiver diode, whose functionality is to detect the user when he brings the hand or any other object to said sensor; said optical sensor (6) being in connection with the control module (5) and sends the appropriate signals when it detects the user.

     A blocking module (7), connected to the control module (5), and composed of a control unit that receives the instructions of the control module (5), and has 40 of a reduction gear and a drive motor of the control module (5). system.

     A drive part (74) in connection with the blocking module (7), whose movement is conditioned by the motor of the motorized module.
     Four. Five
     A logic maneuvering fitting (8), in connection with the dragging part (74), and having two enclaves where it is positioned due to the movement of the dragging part, being an enclave the one intended for the opening action in swing mode, and another second enclave intended for the opening action in oscillating mode. This logic maneuvering fitting (8) is in connection with the plurality of bolted fittings 50 (41,41 '), in such a way that the movement of said fitting conditions the closing or releasing state of the fasteners or bolts.

     A magnetic sensor (9), which is responsible for interpreting and detecting the state of the window, that is, whether it is open or closed, and in which said magnetic sensor (9) is connected to the control module (5) , which in turn is connected to the blocking module (7), in such a way that the control module (5) interprets the signal received from the magnetic sensor (9) and sends the appropriate order to the blocking module (7). 5

     The electrical-electronic connection (54) that communicates between them and that is centralized in the control module (5).

    Figure 2 is a schematic representation of the interconnection between the different elements forming the motorized closing system. In said figure it can be seen how the control module (5) is in connection with the optical sensor (6) and the magnetic sensor (9), in such a way that it receives the signals of both sensors, interprets them thanks to the plate programmable support base (51) of the system management electronics, which has electrical power (52) for direct connection to the conventional electrical network, and which has 15 of a secondary power supply (53); and how the instructions coming from the interpretation of the data made by the motherboard (51) are sent to the blocking module (7), where the control unit (71) receives said instructions and interprets them to operate the demultiplier (72). ) and the motor (73) of the system, which displaces the driving part (74) and modifies the position of the logical maneuver fitting (8) to the corresponding enclave 20, depending on whether the movement of the final window is oscillating, swinging or sliding. It should be noted at this point that the sequence of the different openings is programmed on the programmable base plate (51) and in conjunction with the optical sensor (6).

    Figure 3 is a representation of another embodiment of the invention, in which a window also oscillating-swing having its elements configured in a different position, such as for example that the control module (5) is in the profile bottom horizontal of the perimeter joinery (1), or that the blocking module (7) is in the upper horizontal profile of the internal joinery (2) of the window together with the logical maneuver fitting (8), but that in this case incorporates a displacement module (75), connected to a guided skate (76) that allows the motorized movement of said leaf.

    Figure 4 is a representation of another embodiment of the invention, in this case a sliding or sliding enclosure, which also has its elements configured in a position different from the previous embodiments, such as for example that the control module (5) 35 found in the upper horizontal profile of the perimeter joinery (1), or that the blocking module (7) is located in a lateral profile of the internal joinery (2) of the window, while in this case it also incorporates a module of displacement (75), connected that allows the motorized movement of the blade guided by rails as a guide (76). It is also pointed out that, in this particular embodiment, the sliding enclosure 40 allows the movement of both sheets, therefore, this invention allows the system to be implemented in each sheet and therefore these previously highlighted elements are found in both sliding sheets.

    Figure 5 is a schematic representation of the interconnection between the different elements forming the motorized closing system for its second embodiment, which incorporates a displacement module (75), connected to the control module (5), and composite by a controller unit (751) that receives the instructions of the control module (5), and has a reduction gear (752) and a motor (753) connected to a guidance skate (76) or guiding element with which moves or moves the sheet. fifty




    55
    权利要求:
    Claims (13)
    [1]

    1. Motorized closing system, intended for glazed enclosures with exposed or concealed profiles, in which the whole of the enclosure is formed by continuous surfaces, flat and without handles, there being a plurality of locking fittings in the form of flat 5 bolted plate ( 41) and / or in the form of a bollard bracket (41 ') distributed along the entire perimeter of the carpentry or profiles of the enclosure; characterized by having:
    - a control module (5), formed by a programmable base plate (51) supporting the system management electronics, which is electrically powered, and is integrated into the carpentry of the enclosure.
    - at least one optical sensor (6), which allows the reflection of the light from a transmitting diode on a receiver diode, and is in connection with the control module (5).
     fifteen
    - a blocking module (7), connected to the control module (5), and composed of a control unit (71) that receives the instructions of the control module (5), and has a demultiplicator (72) and an engine (73) for driving the system.
    - a driving part (74) in connection with the blocking module (7), whose displacement is conditioned by the motor (73) of the blocking module.
    - a logic maneuver fitting (8) connected to the drag part (74) and in connection with the plurality of bolted fittings (41,41 '), in such a way that the movement of said logic maneuver fitting (8) conditions the state of closure or release of the 25 closures or bolts.
    - at least one magnetic sensor (9) connected to the control module (5).
    - the electric-electronic connection (54) intercommunicating the previous elements and 30 being centralized in the control module (5), is distributed internally along the carpentry and profiles of the enclosure.

    [2]
    2. Motorized closing system, according to the features of claim 1, characterized in that the control module (5) is connected to a displacement module (75) composed of a controller unit (751) that receives instructions from the control module (5), and has a reduction gear (752) and a motor (753) connected to a guidance skate (76).

    [3]
    3. Motorized closing system, according to the features of claim 1, characterized in that the control module (5) is electrically powered by an electrical power supply means (52) directly connected to the conventional electrical network.

    [4]
    4. Motorized closing system, according to the features of claims 1 and 3, characterized in that the control module (5) is electrically powered by a secondary power source (53).

    [5]
    5. Motorized closing system, according to the features of claim 4, characterized in that the secondary power source (53) is an accumulator.
     fifty
    [6]
    6. Motorized closing system, according to the features of claim 1, characterized in that the logic maneuvering hardware (8) has at least two positioning enclaves.

    [7]
    7. Motorized closing system, according to the features of claim 6, characterized in that the logic maneuvering hardware (8) has a positioning enclave for opening the enclosure in swing mode.

    [8]
    8. Motorized closing system, according to the features of claim 6, characterized in that the logic maneuvering hardware (8) has a positioning enclave for opening the enclosure in oscillating mode.

    [9]
    9. Motorized enclosure system, according to the features of claim 6, characterized in that the logic maneuver fitting (8) has a positioning enclave 10 for opening the enclosure in sliding mode.

    [10]
    10. Motorized closing system, according to the features of claim 1, characterized in that in the programmable base plate (51) the sequence of the different openings of the enclosure is programmed. fifteen

    [11]
    11. Method of driving the motorized closing system previously defined in the preceding claims, characterized in that it comprises the following steps:
    a) the optical sensor (6) detects the user; twenty
    b) the optical sensor (6) sends a detection signal to the control module (5) where the authorization is validated.
    c) the control module (5) sends an opening command to the blocking module (7). 25
    d) the blocking module (7) displaces the driving part (74).
    e) the dragging part (74) modifies the position of the logical fitting (8) until it reaches the first enclave, modifying the situation of the plurality of bolted fittings 30 (41,41 ') of the carpentry of the enclosure.
    f) the optical sensor (6) sends a signal to the control module (5) of whether or not it detects the user and sends a signal to the control module (5).
     35
    g) the magnetic sensor (9) detects the position of the window and sends a signal to the control module (5).
    h) the control module (5) analyzes said signals and sends a blocking module instruction (7). 40
    i) the dragging part (74) modifies the position of the logical fitting (8) according to the indications of the blocking module (7), modifying the situation of the plurality of bolted fittings (41,41 ') of the carpentry of the enclosure.
     Four. Five
    j) the magnetic sensor (9) checks that the window is open and sends a signal to the control module (5).
    k) the control module (5) commands the instruction to stop the blocking module (7).
     fifty
    [12]
    Method of actuation of the closure system, according to the features of claim 11, characterized in that step k) is implemented with the control module (5) sending a drive command to the displacement module (75) ; the magnetic sensor (9) checks that the enclosure is open and sends a signal to the module
    control (5); and the control module (5) commands the stop command to the displacement module (75).

    [13]
    13. Method of actuation of the closure system, according to the features of claims 11 and 12, characterized in that said steps are inverted for closing and locking the system.
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    同族专利:
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    引用文献:
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