EP2729647B1 - Dispositif de commande de verrouillage multipoint pour un vantail ouvrant - Google Patents

Dispositif de commande de verrouillage multipoint pour un vantail ouvrant Download PDF

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Publication number
EP2729647B1
EP2729647B1 EP12744058.4A EP12744058A EP2729647B1 EP 2729647 B1 EP2729647 B1 EP 2729647B1 EP 12744058 A EP12744058 A EP 12744058A EP 2729647 B1 EP2729647 B1 EP 2729647B1
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EP
European Patent Office
Prior art keywords
leaf
rod
control rod
bolt
controlled
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
EP12744058.4A
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German (de)
English (en)
French (fr)
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EP2729647A1 (fr
Inventor
Xavier Cappone
Noël Robert
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Grosfillex SAS
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Grosfillex SAS
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Publication of EP2729647A1 publication Critical patent/EP2729647A1/fr
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Classifications

    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05CBOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
    • E05C9/00Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing
    • E05C9/002Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing with arrangements allowing the wing to be slam-shut, e.g. by securing elements with latching action
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05CBOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
    • E05C9/00Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing
    • E05C9/06Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing with three or more sliding bars
    • E05C9/063Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing with three or more sliding bars extending along three or more sides of the wing or frame
    • E05C9/066Locks for windows or doors specially adapted for tilt and turn
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05CBOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
    • E05C9/00Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing
    • E05C9/24Means for transmitting movements between vertical and horizontal sliding bars, rods or cables for the fastening of wings, e.g. corner guides
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B15/00Other details of locks; Parts for engagement by bolts of fastening devices
    • E05B15/02Striking-plates; Keepers; Bolt staples; Escutcheons
    • E05B15/0205Striking-plates, keepers, staples
    • E05B15/022Striking-plates, keepers, staples movable, resilient or yieldable
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B63/00Locks or fastenings with special structural characteristics
    • E05B63/18Locks or fastenings with special structural characteristics with arrangements independent of the locking mechanism for retaining the bolt or latch in the retracted position
    • E05B63/185Preventing actuation of a bolt when the wing is open
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05CBOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
    • E05C9/00Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing
    • E05C9/18Details of fastening means or of fixed retaining means for the ends of bars
    • E05C9/1808Keepers
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05CBOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
    • E05C9/00Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing
    • E05C9/18Details of fastening means or of fixed retaining means for the ends of bars
    • E05C9/1825Fastening means
    • E05C9/1833Fastening means performing sliding movements
    • E05C9/185Fastening means performing sliding movements parallel with actuating bar

Definitions

  • the present invention relates to the field of doors, windows, French windows or other types of door leaves.
  • a door lock control device opening at least one locking angle of the locking locations so as to increase the resistance to deflection of the leaf in the closed position under the wind stress.
  • the present invention relates to a locking control device for an opening leaf mounted in a frame so as to be pivotable at least about a longitudinal axis to move between a closed position and a "swing" open position.
  • the device comprising a control rod adapted to be slidably mounted in the longitudinal direction on the leaf; at least one first locking assembly comprising a first bolt integral with the control rod and a first associated striker; at least a first control rod which is slidably mounted in a lateral direction on the leaf and which is coupled in displacement to the control rod so that a translation of the control rod in the longitudinal direction controls a translation of the first rod controlled in the lateral direction; at least one second locking assembly comprising a second bolt integral with the first control rod and a second associated keeper; and at least one actuator adapted to be mounted operable on the leaf so as to control the control rod in translation.
  • the device is such that, from respective locking positions of the control rod and the first control rod in which the first and second bolts are respectively capable of being engaged with the first and second latches to keep the leaf in the position of closing, a first operation of the actuator causes unlocking translations of the control rod and the first rod controlled to disengage the first and second bolts of the first and second strikes to allow the swing opening of the leaf.
  • Locking control devices of this type are already known in which a movement of the control rod can only be controlled by actuation of the actuator, so that it is necessary to lock the leaf in the closed position. following its closing movement from its swing opening position, to perform at least one operation of the actuator.
  • EP 0 380 059 which, for the purposes of the implementation of the invention disclosed in this document, advocates the free movement of a linkage system, independently of any maneuver of an actuator, so that the latter is not fit to order on the move this linkage system (see in particular, the figure 5 of this document, in particular the linkage system represented as an extra thickness in the lower right edge of the leaf shown in this figure).
  • EP 1 947 274 which, for the purposes of the implementation of the invention disclosed in this document, advocates the obligation to actuate an actuator to allow a movement of the rod, so that it is necessary to lock the leaf in position closing after its closing movement, to perform at least one operation of the actuator.
  • the present invention proposes to provide such a locking control device.
  • the locking control device comprises first return means adapted to be secured to the leaf to urge the displacement of the control rod and the first control rod to their respective locking positions, and that the bolt and the keeper of at least one of the first and second locking assemblies, called “cam locking assembly”, are able to cooperate by camming, when closing the leaf from its swinging opening position, cause unlocking translations of the control rod and the first control rod, without actuation of the actuator.
  • cam lock assembly the bolt and the latch associated with at least one of the first and second locking assemblies, called “cam lock assembly”
  • the rod integral with the bolt of this cam lock assembly can undergo an unlocking translation during closing of the leaf.
  • this closed position being defined as the position of the leaf in which the relative position of the bolt of said cam lock assembly relative to its associated strike allows a locking translation of the rod integral with the bolt to engage the latter with its associated strike and thus keep the leaf in this closed position.
  • the device comprises first return means adapted to be secured to the leaf to solicit movement of the control rod and the first rod controlled in the direction of their locking translations (ie in the opposite direction to their unlocking translations).
  • the objects A and B are respectively the first return means and the leaf
  • the first return means can advantageously be as well fixed directly to the leaf, as to on the contrary to be secured to an insert to be fixed on the leaf.
  • such an insert may advantageously consist of a rod guide adapted to be fixed on the leaf, so that one and the same insert serves both as a guide in translation of one of the rods the control rod and the first rod commanded, and place of attachment of the first biasing means.
  • first biasing means are able to urge the displacement of the control rod and the first control rod to their respective locking positions, in particular in the opposite direction to their unlocking translations.
  • the first return means can advantageously be arranged so as to directly request the displacement of only one of the two rods among the control rod and the first rod ordered, while the other of the two rods is indirectly solicited in displacement just because it is driven in the movement of said one of the two rods (it is recalled in fact that the control rod and the first rod controlled are coupled in displacement one with the other).
  • the first return means can advantageously be arranged so as to directly request the displacement of the control rod and directly the displacement of the first rod ordered.
  • the first biasing means may for example comprise at least two disengaged return elements which are respectively able to urge the displacement of the control rod and the first control rod.
  • first biasing means directly urge the movement of a bead member considered among the control rod and the first rod ordered
  • these first biasing means can advantageously urge said rod itself, or otherwise solicit the bolt secured to said rod.
  • the first return means can advantageously but not necessarily include one or more springs, in particular spiral and / or blade.
  • the first return means are secured to the leaf being able to cooperate on the one hand with the guide and on the other hand with said rod. itself to solicit movement of said rod.
  • the bolt and the associated striker of the cam lock assembly may have any particular arrangement for effecting camming, provided only that said bolt and said associated striker are capable of cooperating together for, at the time of closing the leaf from its swing open position, cause unlocking translation of the rod integral with the bolt of this cam lock assembly whose translation amplitude is sufficient to allow the leaf to adopt at the end of its movement its closing position (ie its position in which the relative position of the bolt relative to its associated strike allows a locking translation of the rod integral with the bolt, caused by the first biasing means for holding the leaf in its closed position), and without actuation of the actuator.
  • the cam lock assembly may advantageously be arranged in such a way that at least a first of its elements among its bolt and latch comprises a ramp able to cooperate by camming with an associated contact part of the cam. the other of said elements for, when closing the leaf from its swinging opening position, cause unlocking translation of the rod integral with the bolt of the cam lock assembly, without actuation of the actuator.
  • ramp should be interpreted broadly in the present application, so that a ramp within the meaning of the present invention may advantageously have both a constant slope along said ramp, on the contrary that it comprises at least one (ie one or more) slope variation along said ramp.
  • the variation of slope is carried out without discontinuity of the ramp instead of change of slope so as to avoid a clash of the ramp with the associated contact portion which would lead to untimely wear of these latest.
  • the slope variation can be linear as well as governed by a more complex equation (in particular a conical equation, especially a parabolic equation).
  • the slope of the ramp varies decreasing from the place of the latter to which the cooperation of this ramp with said associated contact portion is initiated during the closing movement of the leaf from its swing open position.
  • the slope of the ramp decreases in the extension of this starting point of the cooperation of the ramp with the associated contact part of way to be less pronounced.
  • the opposing resistance, during the closing movement of the leaf, to the unlocking translation of the rod can thus be reduced following the initiation of this cooperation, taking advantage of the kinetic energy stored by said rod during said cooperation primer to compensate for this decrease in slope of the ramp and allow the continuation of the unlocking translation of said rod until the leaf reaches its closed position.
  • the ramp is secured to the keeper of the cam lock assembly, while the associated contact portion is integral with the bolt of this cam assembly.
  • the bolt may advantageously comprise a roller which materializes the contact part associated with the ramp.
  • Such a roller may advantageously have a circular section. It can then be provided that this roller is advantageously secured to the associated rod being rotatable on itself, so as to roll on the ramp to minimize wear of the roller.
  • the roller may equally well have a completely different section, provided only that at least a portion of the roller is adapted to materialize the contact portion adapted to cooperate by cam effect with the ramp during the closing movement of the leaf.
  • this portion of the roller may have a fixed or variable radius of curvature.
  • the bolt and the associated strike of the cam lock assembly both comprise a ramp, preferably respective constant slopes.
  • the ramp is integral with the bolt of the cam lock assembly, while the associated contact portion is integral with the striker of this cam assembly.
  • the striker may advantageously comprise a protrusion (in particular a stud) as an associated contact part.
  • said bolt further has a recess in the extension of said ramp capable of being engaged with said projection of the striker, when the rod integral with said bolt adopts its locking position to maintain the leaf in the closed position.
  • the actuator and the control rod are integral in displacement.
  • This feature can advantageously be used for the first biasing means solicit a movement of the actuator in the opposite direction to that of the first maneuver, so that the control rod and the first rod ordered are both indirectly biased in the opposite direction to their unlocking translations by the first return means.
  • the actuator controls in translation the control rod with clearance so as to allow a relative movement between the actuator and the control rod.
  • this clearance can advantageously be such that the actuator can move (for example under the bias of a return element) in the opposite direction to its first operation when the leaf is in its swing opening position, regardless of the position of the control rod with respect to its locking position.
  • the striker of the cam lock assembly is a movable striker capable of being biased by said cam effect in the direction of its disengagement with respect to the associated bolt during closing of the leaf, and in that the device comprises second biasing means adapted to urge said movable striker in the opposite direction to the direction of its disengagement.
  • the movable striker is able to be displaced by translation, preferably in the direction of translation of the rod secured to its associated bolt and in the opposite direction to the unlocking translation of said rod, when the cam effect requests this striker movable in the direction of its disengagement with respect to its associated bolt.
  • the movable striker may be able to move by pivoting, preferably around an axis perpendicular to the direction of translation of the rod integral with its associated bolt, when the cam effect merge this striker moving in the direction of its disengagement with respect to its associated bolt.
  • the bolt of the cam lock assembly may advantageously be a bolt which is movable relative to the rod which it is integral, and which is adapted to be biased by said cam effect in the direction of its disengagement by relative to the associated striker when closing the leaf, and the device may advantageously comprise third biasing means adapted to urge said movable bolt in the opposite direction to the direction of its disengagement.
  • Such a mobile bolt may advantageously be able to be displaced by translation, preferably in the direction of translation of the rod of which it is integral and in the direction of the unlocking translation of said rod, when the cam effect urges the movable bolt in the direction of disengagement with respect to its associated strike.
  • the mobile bolt may be able to move by pivoting, preferably around an axis perpendicular to the direction of translation of the rod which it is integral, when the cam effect seeks this mobile bolt in the direction of its disengagement with respect to its associated strike.
  • only one of the two lock assemblies is a cam lock assembly.
  • the other locking assembly may be a "conventional locking assembly” comprising a bolt and a latch associated conventional structures, which do not allow them to cooperate with each other by camming during closing the leaf from its swing open position and out of its closed position.
  • the device comprises an unlocking holding mechanism configured to maintain the control rod and the first control rod spaced apart from their respective locking positions, when the leaf is out of its closed position; and means for deactivating said holding mechanism when closing the leaf to allow the control and controlled rods to adopt their respective locking positions under the effect of the first biasing means.
  • the holding mechanism cooperates directly with only one of the two rods among the control rod and the first control rod (preferably with the control rod), when the leaf is outside its closed position, the other one two rods being in this case indirectly kept away from its locking position simply because the control rod and the rod controlled are coupled in displacement with each other.
  • said means for deactivating the holding mechanism are solicited by the closing movement of the leaf, in particular by the movement of the leaf between its swinging opening position and its closed position and / or the movement of the leaf between its position d oscillating opening and its closed position.
  • control rod and the first control rod are kept away from their respective locking positions outside the closing position of the leaf, either by the previously described holding mechanism or by other means, the bolt of the cam lock assembly is necessarily removed from its locking position when the leaf is in its swing opening position.
  • this cam lock assembly can be configured so that its bolt and strike are able to cooperate by camming effect, when closing the leaf from its swing open position, cause a unlocking translation of the rod integral with the bolt of this cam lock assembly which leads the rod to move further away from its locking position (ie which leads the rod to move under the solicitation of the cam effect in the direction of its unlocking translation from the spacing position that this rod occupies with respect to its locking position before the initiation of the camming cooperation, during the closing movement of the leaf from its position swinging opening).
  • the first and second locking assemblies are both cam lock assemblies.
  • control rod and the first control rod are kept away from their respective locking positions when the leaf is out of its closed position (ie it it is not necessary to equip the device with means (such as in particular the previously described holding mechanism) opposing the displacement load exerted by the first return means on the control rod and on the first rod ordered in the direction of movement of the latter to their respective locking positions, when the leaf is in its swing opening position).
  • control rod and the first control rod can occupy their respective locking positions when the leaf is in its swing opening position (and thus also before the camming interaction between the bolt and the associated strike of each of the two sets of cam locks is initiated during the closing movement of the leaf) makes it possible to reduce the range of displacement (ie the stroke) that the control rod and the first commanded rod must undergo in the direction of their translations respective locking, by the biasing of the first return means when the leaf adopts its closed position following its closing movement.
  • the sizing of the first return means can advantageously be revised downwards, which allows the make easier the first operation of the actuator to which they oppose when the user wishes to unlock the leaf to open.
  • this second alternative is implemented without equipping the device with means for moving the control rod and the first control rod from their respective locking positions when the leaf is out of its position of closing, it is however not excluded from the scope of this second alternative that the device can include such means, in particular the mechanism for maintaining the unlocking previously described.
  • the two sets of cam locks are analogous to each other (i.e. these two sets advantageously have the same (s) feature (s), in particular among those previously described).
  • the two cam lock assemblies can have one or more distinct characteristics, provided only that the bolt and the cam of the first cam lock assembly are suitable for cooperate by camming, on the one hand, and that the bolt and the cam of the second cam lock assembly are able to cooperate by camming, on the other hand, when closing the leaf from its swing open position.
  • the displacement coupling of the first bead wire controlled with the control rod is such that the first bead wire controlled is integral in displacement of the control rod.
  • the first rod ordered moves in the lateral direction over a displacement range of the same length (ie on the same stroke) as that of the control rod in the longitudinal direction, when one of the two rods of the first rod commanded and the control rod drives the other of the two rods in its movement.
  • the coupling in translation of the first rod controlled by the control rod is performed with a clearance so as to allow a relative displacement between the control rod and the first rod controlled.
  • the game can in this case advantageously be such that the rod integral with the bolt of the conventional locking assembly moves only on a part of the extent of movement of the rod integral with the bolt of the locking assembly to cam (even remains stationary) during the closing movement of the leaf and as long as the leaf is out of its closed position, before being returned to its locking position by being driven in the movement of the rod associated with the cam lock assembly once the leaf adopts its closed position.
  • the longitudinal direction may be perpendicular to the lateral direction.
  • control rod and the first control rod follow each other when they move.
  • the displacement coupling of the control rod with the first control rod is such that the control rod and the first control rod move away from each other when they undergo their respective unlocking translations. , and approach each other when they undergo their respective locking translations.
  • the device may advantageously comprise a displacement direction reverser disposed between the control rod and the first rod controlled to perform the coupling in displacement of these two rods.
  • the device comprises a second controlled rod which, like the first rod ordered, is able to be slidably mounted in the lateral direction on the leaf and is coupled in displacement to the control rod, the first and second rods controlled being respectively fit to be mounted near the first and second longitudinal ends of the leaf.
  • first and second longitudinal ends is meant the two ends of the leaf which are spaced from each other in the longitudinal direction, and which both extend in the lateral direction.
  • the device comprises at least a third locking assembly comprising a third bolt integral with the second controlled rod and a third associated striker, so as to increase the sag resistance of the leaf in the closed position under the wind stress.
  • This third locking assembly may advantageously be similar to at least one of the first and second locking assemblies and thus comprise one or more of the characteristics described above.
  • the locking control device may be intended for a leaf mounted in a frame so as to be pivotable not only about a longitudinal axis to move between a closed position and a "flying" opening position, but also around a lateral axis located near its second longitudinal end to move between the closed position and an "oscillating" opening position in which its first longitudinal end is disengaged from the frame.
  • the device may advantageously comprise at least one first integral retaining member in displacement of the first controlled rod and a second retaining member integral with the frame, which are able to cooperate with one another to prevent the separation of the first longitudinal end of the leaf with respect to the frame and to be released from one another to allow this separation; and at least one first pivot member secured to the displacement of the second controlled rod and a second pivot member secured to the frame, which are adapted to cooperate with each other to allow the oscillating opening by pivoting the leaf about its lateral axis. and to be released from each other to allow the pivotally swinging opening of the leaf about its longitudinal axis.
  • the device may advantageously be such that the first retaining member cooperates with the second retaining member while the first and second pivot members are released from one another when the control rod is moved between its locking and unlocking positions of the swing opening of the leaf, on the one hand, and its locking position, the control rod is adapted to be translated by a second operation of the actuator so as to cause the ordered rods in its movement to adopt respective unlocking positions of the oscillating opening of the leaf in which the respective bolts of the control rod and the controlled rods are disengaged from their associated strikes, and wherein the first retaining member is released from the second retaining member while the first pivot member cooperates with the second pivot member, for example re part.
  • the first and second retaining members cooperate together to prevent the oscillating opening of the leaf, while the first and second pivot members are released from each other to prevent them from impeding the swinging opening of the leaf.
  • a second operation of the actuator can control the movement of the control rod (and first and second rods controlled in its movement) so that the latter adopts a position of unlocking the oscillating opening of the leaf which is outside said first extent of displacement, and wherein the first and second pivot members cooperate together to allow pivoting of the leaf about the lateral axis, while the first and second second retaining members are released from each other to allow the separation of the first longitudinal end of the leaf during its pivoting about the lateral axis.
  • the unlocking of the swing opening and the unlocking of the oscillating opening are both in the same direction of translation of the control rod from its locking position.
  • the unlocking position of the oscillating opening of the leaf that adopts the control rod to allow pivoting of the leaf around the lateral axis from its closed position is further apart, with respect to the locking position. said rod, that the unlocking position it adopts to allow the swinging opening of the leaf from its closed position.
  • the unlocking of the swing opening and the unlocking of the oscillating opening are effected in the direction of translation of the control rod from its opposite locking position.
  • the bolt and the latch of at least one of the locking assemblies among the first, second and possibly third locking assemblies may advantageously be able to cooperate by camming when closing the leaf from its oscillating opening position, cause translations of the control rod and the rods controlled in the direction of disengagement of their respective bolts relative to their associated strikes, without actuating the actuator.
  • the device is a locking control device for an opening leaf mounted in a frame so as to be pivotable about a longitudinal axis to move between a closed position. and a "swinging" opening position, and about a lateral axis located near its second longitudinal end to move between the closed position and an "oscillating" opening position in which its first longitudinal end is disengaged the frame, the device comprising: a control rod adapted to be slidably mounted in the longitudinal direction on the leaf; at least one first locking assembly comprising a first bolt integral with the control rod and a first associated striker; at least a first control rod which is slidably mounted in a lateral direction on the leaf and which is coupled in displacement to the control rod so that a translation of the control rod in the longitudinal direction controls a translation of the first rod controlled in the lateral direction; at least one second locking assembly comprising a second bolt integral with the first control rod and a second associated keeper; and at least one actuator adapted
  • a first operation of the actuator causes unlocking translations of the control rod and the first rod ordered to disengage the first and second bolts of the first and second strikes to allow the swing opening of the leaf.
  • Said device comprises first return means adapted to be secured to the leaf to urge the movement of the control rod and the first control rod to their respective locking positions; at least one first integral retaining member in displacement of the first controlled rod and a second retaining member secured to the frame, which are able to cooperate with each other to prevent the separation of the first longitudinal end of the leaf with respect to the door frame and to be released from each other to allow this separation; at least one first pivot member secured to the movement of the second controlled rod and a second pivot member secured to the frame, which are able to cooperate with each other to allow the oscillating opening by pivoting the leaf about its lateral axis and to be released from each other to allow the pivotally swinging opening of the leaf around its longitudinal axis.
  • the first retaining member cooperates with the second retaining member while the first and second pivot members are released from one another, when the control rod is moved between its locking and unlocking positions.
  • the swinging opening of the leaf in its locking position, the control rod is adapted to be translated by a second operation of the actuator so as to cause the rods controlled in its movement to adopt respective unlocking positions of the oscillating opening of the leaf in which the respective bolts of the control rod and controlled rods are disengaged from their associated latches, and wherein the first retaining member is released from the second retaining member while the first pivot member cooperates with the second pivot member; and the bolt and keeper of at least one of the first and second locking assemblies are able to cooperate by a cam effect, when closing the leaf from its oscillating opening position, to cause translations of the control rod and rods controlled in the direction of disengagement of their respective bolts relative to their associated strikes, without actuation of the actuator.
  • the cam lock assembly for oscillating opening may advantageously comprise one or more of the features of the set of cam lock previously described, which for the sake of clarity will subsequently be referred to as "cam lock assembly for swing opening”.
  • said cam lock assembly for oscillating opening can cooperate by camming only during the closing movement of the leaf from its oscillating opening position.
  • said cam lock assembly for swing opening is also a cam lock assembly for swing opening.
  • the bolt and the keeper of such a "double cam" locking assembly are able to cooperate by camming not only when closing the leaf from its swing open position to cause first translations of unlocking of the control rod and of the controlled rods, without actuation of the actuator, but also during the closing of the leaf from its oscillating opening position to cause second translations of unlocking said rods, without actuation of the actuator, in opposite directions to the first translations of unlockings.
  • the striker of this locking assembly "double cam” may advantageously comprise two opposite ramps adapted to cooperate by camming with the bolt of said locking assembly when closing the leaf respectively from its open position. swinging and its oscillating opening position.
  • the device comprises a mechanism for maintaining the unlocking configured to maintain the control rod and the rods controlled in their respective unlocking positions of the oscillating opening (thus spaced apart from their respective locking positions), when the leaf is in its position. oscillating opening position; and means for deactivating said mechanism when closing the leaf.
  • This mechanism can advantageously be combined with the maintenance mechanism that had previously been described.
  • a holding mechanism can advantageously be configured to adopt a first holding configuration when the leaf is in its swing opening position, and a second holding configuration when the leaf is in its swing open position.
  • said mechanism keeps the control rod and the controlled rods separated from their positions of respective locking in the direction of their translations of unlocking the swing opening of the leaf.
  • said mechanism maintains said rods spaced apart from their respective locking positions in the direction of their unlocking translations of the oscillating opening of the leaf.
  • Said means for deactivating the holding mechanism can then advantageously be configured to deactivate the first and second holding configurations when closing the leaf respectively from its swing opening position and its oscillating opening position.
  • the cam lock assembly for oscillating aperture can be configured so that its bolt and its strike are suitable. to cooperate by camming effect, when closing the leaf from its oscillating opening position, to cause an unlocking translation of the rod integral with the bolt of this cam lock assembly for oscillating opening which leads this rod to depart further from its locking position (ie which leads the rod to move under the bias of the camming effect in the direction of its unlocking translation from the spacing position that this rod occupies relative at its locking position before the initiation of camming, during the closing movement of the leaf from its oscillating opening position).
  • the device comprises means for preventing, when the leaf is out of its closed position, the direct displacement of the control rod between its unlocking position of the swing opening of the leaf and its unlocking position of the door. oscillating opening of the leaf, so that the first maneuver and the second maneuver of the actuator can only be carried out from the closing position of the leaf.
  • the device may comprise secondary biasing means for urging the displacement of the control rod and the rods controlled in the opposite direction to their unlocking translations of the oscillating opening.
  • Such secondary biasing means may advantageously but not necessarily only form one with the first biasing means previously described.
  • these return means can advantageously work in compression (respectively in extension) to urge the rods in the opposite direction to their translations of unlocking the swing opening, and work in extension (respectively in compression) to solicit said rods in the opposite direction to their unlocking translations of the oscillating opening.
  • the third bolt may advantageously be formed in one piece with the first pivot member.
  • the third striker may advantageously be formed integrally with the second pivot member.
  • the longitudinal axis around which the leaf pivots is vertical, when the leaf is mounted in its frame, so that the leaf can open to the French when it moves between its closed position and its position. swinging opening.
  • the leaf when the leaf can also rotate about a lateral axis, it can advantageously be horizontal when the leaf is mounted in its frame.
  • the leaf is a tilt-and-turn leaf.
  • the leaf is pivotable only around a horizontal or vertical longitudinal axis, when the leaf is mounted in its frame.
  • the leaf when this longitudinal axis is horizontal, the leaf can open bellows when moving between its closed position and its swing open position.
  • At least one of the previously described rods may advantageously be able to be mounted on the leaf.
  • At least one of the previously described rods may be adapted to be mounted in rabbet of the leaf, in particular in a groove of the latter.
  • the door frame of the leaf can advantageously be a door frame for single leaf.
  • at least one of the strikes previously described can be adapted so as to be secured to the frame, in particular wall or rabbet of the latter.
  • the door frame can be a frame for two leaves.
  • at least one of the previously described strikes in particular the first strike
  • the second leaf in particular wall or rabbet of the latter.
  • control rod comprises a plurality of rod securing elements defined along said control rod, and the control in translation of the control rod is effected with the aid of a control finger, which is adapted to be solicited by a maneuver of the actuator, and which comprises at least one control finger securing element adapted to secure the control finger with the control rod by cooperation with one of said rod fastening elements, and the first bolt comprises at least one bolt securing element adapted to secure the first bolt with the control rod by cooperation with another of said rod fastening elements.
  • first bolts cooperating each, with a rod fastening element, or provide a single first bolt.
  • the number of first bolts is less than the number of bead securing elements capable of cooperating with a first bolt, one can choose the position of the first bolt or bolts along the control rod according to the position of the corresponding first strike.
  • the control rod may be formed by a section of rod cut in a long rod without significant material loss since the presence of several rod fastening elements adapted to cooperate with a first bolt will easily place one of them in the desired position relative to the first strike.
  • control rod has a control finger slot whose edge forms said one of said rod securing elements, and the control finger securing element comprises a control finger retaining tab which can be retained. by the edge of said control finger slot.
  • said control finger retaining tab is substantially contained in a plane P0 and said control finger slot has an elongation direction inclined with respect to said plane P0, when the control finger is integral with the control rod, so that the fastening of the control finger with the control rod is effected by engagement and rotation of the control finger retaining tab, which allows to easily secure or disengage the control finger with the control rod.
  • said control finger slot has an elongation direction inclined with respect to the longitudinal direction, and said plane P0 is substantially parallel to the longitudinal direction, when the control finger is integral with the control rod.
  • said control finger slot has an elongation direction parallel to the longitudinal direction, and said plane P0 is substantially inclined with respect to the longitudinal direction, when the control finger is integral with the control rod.
  • control rod has a slot for a bolt whose edge forms said other of said bead fastening elements, and the bolt securing element comprises a bolt retaining lug, adapted to be retained by the edge of said slot. for bolt.
  • said bolt retaining clip is substantially contained in a plane P1 and said bolt slot has an elongation direction inclined with respect to said plane P1, when the first bolt is secured to the control rod, so that the fastening the bolt with the control rod is made by engagement and rotation of the bolt retaining lug, which allows to easily secure or disengage the first bolt with the control rod.
  • said bolt slot has an elongation direction inclined relative to the longitudinal direction, and said plane P1 is substantially parallel to the longitudinal direction, when the first bolt is integral with the control rod.
  • said bolt slot has an elongation direction parallel to the longitudinal direction, and said plane P1 is substantially inclined with respect to the longitudinal direction of the control rod, when the first bolt is integral with the rod. ordered.
  • said rod fastening elements are similar or identical to each other.
  • any rod fastening element is able to cooperate with both a control finger securing element and a bolt securing element, which further increases the modularity of the device.
  • control finger securing element is similar, preferably identical, to the bolt securing element.
  • the actuator comprises a lever adapted to be pivotally mounted on the leaf around a pivot axis.
  • the pivot axis of the lever is substantially parallel to the plane of the leaf and substantially perpendicular to said longitudinal direction of the rod.
  • the actuator comprises a slider adapted to be slidably mounted substantially in the longitudinal direction on the leaf.
  • control finger is integral with a plate on which is formed said control finger fastening element.
  • control finger and the plate are formed in one piece, which simplifies the device.
  • control finger is distinct from the plate and is adapted to be secured to the latter.
  • FIG. 1 to 22A there is shown a first non-limiting example of a lock control device 20 according to the present invention.
  • the device 20 is intended to equip a leaf 1 opening mounted in a frame 10 for single leaf.
  • the leaf 1 is of the tilt-and-turn type.
  • the leaf 1 when the leaf 1 is mounted in its frame 10, the leaf 1 is pivotable about a longitudinal axis Z1 which is vertical, so as to be able to open to the French by moving between a closed position (that represented in particular at the figure 1 ) and a so-called “swinging" opening position (that represented in particular in Figures 18 and 19 ).
  • the leaf 1 when the leaf 1 is mounted in its frame 10, the leaf 1 is pivotable about a lateral axis X1 which is horizontal and which is situated in the vicinity of its second longitudinal end 3, so as to be able to move between its closed position and a so-called “oscillating" opening position in which its first longitudinal end 2 is disengaged from the frame 10 (see in particular the figure 20 ).
  • the longitudinal direction Z of the leaf 1 corresponds to the vertical direction
  • its lateral direction X corresponds to the horizontal direction, when the leaf 1 is mounted in its frame 10.
  • the locking control device 20 comprises a control rod 45 adapted to be slidably mounted in the longitudinal direction Z on the leaf 1.
  • control rod 45 is adapted to be slidably mounted on the flap of the leaf 1, in particular in a "longitudinal" groove formed in the thickness of a longitudinal edge of the leaf 1 (for example, in the groove called "European” that conventionally comprise the leaves), by means of a fixed rod 46 which is able to be fixed in said longitudinal groove (in particular by means of screws not shown), and which is able to guide the rod order 45.
  • the lock control device 20 comprises a plurality of first lock assemblies 40 (in particular three, but could be provided with any other number, for example one, two, four or more) which are regularly spaced along the rod. 45 (thus spaced from each other in the longitudinal direction Z, when the control rod 45 is mounted on the leaf 1).
  • the first locking assemblies 40 are analogous to each other, in particular identical, so that only one of them will be described in the following description.
  • the first locking assembly 40 comprises a first bolt 41 (better visible on the Figure 4A in particular) secured to the control rod 45 and a first associated strike 42 (which is clearly distinguished on the Figure 2B , for example).
  • the first bolt 41 is dissociated from the control rod 45 before being secured to the latter (it could however be expected, without departing from the scope of the present invention, that the first bolt is formed in one piece with the control rod, for example by molding).
  • control rod 45 comprises a plurality of rod fastening elements (in particular through holes) defined along said control rod 45
  • first bolt 41 comprises a bolt fastening element (in particular a rivet) adapted to secure the first bolt 41 with the control rod 45 by cooperation with one of said rod fastening elements (in particular by deformation of the rivet after the latter has passed through one of the passage holes of the control rod 45 ).
  • the bolt fastening element (in particular the rivet) passes through a groove extending in the longitudinal direction (in particular an oblong hole whose direction of elongation corresponds to the longitudinal direction Z) that the front fixed beam 46 presents. to cooperate with one of the fastening elements rod of the control rod 45 (in particular one of its through holes), so that the longitudinal edges of said groove can cooperate with the bolt fastening element of the first bolt 41 to guide in translation the control rod 45.
  • the frame 10 is intended to accommodate a single leaf 1, then the first striker 42 is adapted to be secured to the frame 10.
  • the first striker 42 is fixed directly (for example by screwing) on a portion of the periphery of the frame 10 which extends in the longitudinal direction Z (in particular on an amount of the frame 10), in particular in a clearance that includes said portion to allow the closing of the leaf 1.
  • the device 20 comprises first and second controlled rods 55 and 65 which are both able to be slidably mounted in the lateral direction X on the leaf 1, and which are both coupled in displacement to the control rod 45 so that a translation of the control rod 45 in the longitudinal direction Z command respective translations of the first and second controlled rods 55 and 65 in the lateral direction X.
  • the first and second controlled rods 55 and 65 are respectively capable of being mounted in the vicinity of the first and second longitudinal ends 2 and 3 of the leaf 1, so that these two rods 55 and 65 are spaced from each other in the longitudinal direction Z.
  • the displacement coupling between the control rod 45 and the first controlled rod 55 is achieved by means of a first angle-of-turn device comprising a guide 80 which is bent at 90 °, which is able to be secured to the leaf 1 (in particular being fixed directly on the one hand to the fixed rod 46, and on the other hand to a fixing plate 56 which is connected to the fixed rod 46), and which is suitable to guide in displacement a blade (not shown) provided flexible so as to be able to move partly in the longitudinal direction Z and partly in the lateral direction X by deforming in the bend of the guide 80.
  • the guide 80 comprises a substantially U-shaped section with a square base, whose free ends of the two branches are bent so as to prevent the flexible blade from being detached from the guide 80 once the latter has engaged in the guide 80.
  • the first angular gear device further comprises first and second rods 47 and 55 which are respectively capable of sliding in the longitudinal direction Z and the lateral direction X.
  • a first end of the first rod 47 is connected to that of the two ends of the flexible blade which moves in the longitudinal direction Z, while the other end of the first rod 47 is connected to the control rod 45.
  • the second rod 55 serves as the first controlled rod 55 (it could however be expected, without departing from the scope of the present invention, the first controlled rod 55 is a dissociated element to be connected to this second rod 55, for example in a similar manner to the control rod 45 which is connected to the first rod 47).
  • a two ends of the second rod 55 is connected to that of the two ends of the flexible blade which moves in the lateral direction X.
  • the first device with a bevel gearbox is adapted to be mounted as a rabbet of the leaf 1, in particular partly in the longitudinal groove previously described and partly in a first "lateral" groove which is formed in the thickness of a first lateral edge of the leaf 1 (in particular in its first longitudinal end 2). More particularly, the plate 56 is adapted to be fixed in said first lateral groove (in particular by means of screws not shown).
  • the first control rod 55 is adapted to be slidably mounted on the rabbet of the leaf 1, in particular in said first lateral groove of the latter.
  • first and second rods 47 and 55 are respectively guided in displacement by means of guide elements 57 and 59 (visible on the Figure 2B ) which are fixed in the longitudinal groove and in the first lateral groove of the leaf 1.
  • the coupling in displacement between the control rod 45 and the second controlled rod 65 is made with the aid of a second device with an angle of return similar to the first described above, so that the second controlled rod 65 (which in this example corresponds to the second rod of the second device with a bevel gear) is adapted to be mounted as a rebate sliding of the leaf 1, in particular in a second lateral groove which is formed in the thickness of a second lateral edge of the leaf 1 (ie in its second longitudinal end 3).
  • first and second rods 48 and 65 of the second angular gear device are respectively guided in displacement by means of guiding elements 58 and 66 (visible on the Figure 2C ) which are fixed in the longitudinal groove and in the second lateral groove of the leaf 1.
  • the first angular deflection device is configured so that the translation coupling of the first rod 55 controlled by the control rod 45 is effected without relative displacement between these two rods 45 and 55, so that the first controlled rod 45 is integral in displacement of the control rod 55.
  • connection between the first rod 47 and the control rod 45 is made by cooperation of a pin integral with one of these two elements 47 and 45 (in particular of the first rod 47) with the edge of a hole which is formed in the other of said two elements 47 and 45 (in particular the control rod 45) and whose dimensions are adapted so as to prevent any relative displacement of the pin in the hole at less in the longitudinal direction Z.
  • each mechanical connection used in the coupling of the control rod 45 with the first control rod 55 is performed without play, which makes it possible to secure the two rods 45 and 55 together in displacement.
  • the second angular deflection device is configured so that the displacement coupling of the second rod 65 controlled by the control rod 45 is performed with a clearance so as to allow relative movement. between the control rod 45 and the second controlled rod 65.
  • At least one mechanical connection implemented in the coupling of the control rod 45 with the second controlled rod 65 is performed with a clearance.
  • connection between the first rod 48 of the second angular gear device and the control rod 45 is made by cooperation of a pin integral with one of these two elements 48 and 45 (in particular of the first rod 48 ) with the edge of a hole 67 which is formed in the other of said two elements (in particular the control rod 45) and whose dimensions are adapted so as to allow relative movement of the pin in the hole 67 at least in the longitudinal direction (according to this example, the hole 67 is an oblong hole whose direction of elongation corresponds to the longitudinal direction).
  • the displacement coupling between the control rod 45 and the first controlled rod 55 is effected without resorting to a reverser of direction of movement, so that the control rod 45 and the first controlled rod 55 follow each other when they are moving.
  • the coupling in displacement between the control rod 45 and the second controlled rod 65 is carried out without resorting to a reverser of direction of displacement, so that the control rod 45 and the second control rod 65 follow each other when they move.
  • the first and second controlled rods 55 and 65 move in opposite directions along the X lateral direction.
  • the locking control device 20 comprises at least one (only one in this example) second locking assembly 50 comprising a second bolt 51 integral with the first controlled rod 55 and a second associated keeper 52.
  • the second bolt 51 is dissociated from the first control rod 55 before being secured to the latter, in particular in a manner similar to that previously described for the first bolt 41 and the control rod 45, so that the description of this solidarity will not be repeated.
  • the second striker 52 is fixed directly (for example by screwing) on a portion of the perimeter of the frame 10 which extends in the lateral direction X (in particular on a cross member of the frame 10 ), in particular in a clearance that includes said portion to allow the closing of the leaf 1.
  • the lock control device 20 comprises at least one (one in this example) third locking assembly 60 comprising a third bolt 61 integral with the second controlled rod 65 and a third associated keeper 62.
  • the third latch 61 and the third latch 62 of the third latch assembly 60 are respectively analogous to the second latch 51 and the second latch 52 of the second latch assembly 50, so that their description will be omitted.
  • the locking control device 20 comprises an actuator 30 adapted to be mounted operatively on the leaf 1 so as to translate the control rod 45 in translation.
  • the translational control of the control rod 45 is effected by means of a control finger 31 (visible on the figure 2 ), which is able to be biased by the actuator 30, and which comprises at least one control finger securing element adapted to secure the control finger 31 with the control rod 45 by cooperation with another of said securing elements previously described.
  • the actuator 30 comprises a fork 32 adapted to cooperate with the control finger 31 to bias the control rod 45 in displacement.
  • the actuator 30 is integral in displacement of the control rod 45.
  • the actuator 30 comprises a lever 33 adapted to be pivotally mounted on the leaf 1 about a pivot axis, which is in particular substantially parallel to the plane of the leaf 1 and substantially perpendicular to the longitudinal direction. Z of the control rod 45.
  • the lock control device 20 is such that, from respective locking positions of the control rod 45 and the first and second controlled rods 55 and 65 in which the first, second and third bolts 41, 51 and 61 are respectively capable of being engaged with the first, second and third strikers 42, 52 and 62 to keep the leaf 1 in the closed position (these are the positions illustrated in FIGS.
  • a first operation of the actuator 30 causes unlocking translations (in the direction of the arrows O indicated on the Figures 4A, 5A and 6A ) of the control rod 45 and the first and second rods 55 and 65 controlled to disengage the first, second and third bolts 41, 51 and 61 of the first, second and third strikers 42, 52 and 62 to allow the swing opening leaf 1 (the locking control device 20 then adopts the positions illustrated in FIGS. Figures 7A, 7B , 8A, 9A and 10A , when the leaf 1 is unlocked but still in its closed position).
  • the engagement of the bolts 41, 51 and 61 with their associated strikers 42, 52 and 62 to maintain the leaf 1 in the closed position, when the control rod 45 and the first and second controlled rods 55 and 65 are in their respective locking positions is realized when the relative position of said bolts 41, 51, and 61 relative to their respective strikers 42, 52 and 62 allows at least a portion of the latter (in particular their respective walls 42A, 52A and 62A) to serve as abutments places that said bolts meet at least in the direction of the opening of the leaf 1 from its closed position (it could be expected, without departing from the scope of the present invention, that the strikes further comprise other abutment locations that the bolts meet in the closing direction of the leaf from its closing position proper, so as to avoid any accidental overcompression of the leaf with respect to its frame when the leaf is in its closing position).
  • the device comprises first return means 70 adapted to be secured to the leaf 1 to urge the displacement of the control rod 45 and the first and second controlled rods 55 and 65 to their respective locking positions (so in particular to solicit them in the opposite direction to their unlocking translations, ie in the opposite direction to the direction of the arrows O indicated on the Figures 4A, 5A and 6A when said rods are in their respective unlocking positions of the swing opening).
  • the first return means 70 are able to urge the control rod 45 itself.
  • the first return means 70 comprise a spiral spring disposed in the longitudinal direction Z, a first end of which cooperates with the fixed rod 46 and the other end cooperates with the control rod 45 to directly urge the latter in the opposite direction to its unlocking translation, in particular by compressing itself.
  • the first and second controlled rods 55 and 65 are biased indirectly by this spiral spring because these two rods 55 and 65 are coupled in displacement with the control rod 45 thus driven in its movement.
  • the first bolt 41 and the first latch 42 of the first locking assembly 50 are able to cooperate by camming effect, when closing leaf 1 from its swinging opening position (movement shown by the arrow F on the Figures 18, 19 , 17A, 18A and 19A ; see also Figures 16A and 16B for the positions of the rods when the leaf is in its swing open position), to cause unlocking translations (in the direction of the arrows O illustrated in Figures 17A, 18A and 19A ) of the control rod 45 and the first and second controlled rods 55 and 65, without actuation of the actuator 30.
  • the first striker 42 includes a ramp 43 adapted to cooperate by camming with an associated contact portion of the first bolt 41 (see FIG. Figure 17A ) when closing leaf 1 from its swing open position, directly causing an unlocking translation of the control rod 45, without actuation of the actuator 30.
  • the ramp 43 has a constant slope.
  • the first bolt 41 comprises a roller which materializes the contact portion associated with the ramp 43 and which, according to this example, has a circular section.
  • the first striker 42 has a plane of symmetry corresponding to the plane perpendicular to the direction of movement of the control rod 45, so that the first striker 42 comprises a second ramp 44.
  • This second ramp 44 has no functional utility in this example but could however provide, without departing from the scope of the present invention, that the second ramp is adapted to cooperate by camming with the first bolt 41 during a closing movement of the leaf from its oscillating opening position, when it is desired to implement a locking assembly "double cam" as described above in the general description.
  • the second and third locking assemblies 50 and 60 are both cam lock assemblies similar to the first cam lock assembly 40.
  • the second and third bolts 51 and 61 are respectively adapted to cooperate by camming with the second and third strikes 52 and 62 for, when closing the leaf 1 from its swinging open position, directly cause unlocking translations of the first and second controlled rods 55 and 65.
  • the locking control device 20 comprises at least one (only one in this example) first retaining member 91 movably integral with the first controlled rod 55 and a second retaining member 92 integral with the frame 10, which are adapted to cooperate with each other to prevent the separation of the first longitudinal end 2 of the leaf 1 relative to the frame 10 and to be released from one another to allow this separation.
  • the first retaining member 91 is integral with an extension rod 94 (preferably said member 91 is dissociated from the rod 94 before being secured thereto, for example by riveting) which is coupled in displacement to the first ordered rod 55, of preferably without allowing relative movement between this rod 94 and the first controlled rod 55.
  • the first retaining member 91 comprises a projection adapted to pass through a groove that includes the base 95 of a compass with two branches 93 and 96 of the type that is usually used to prevent the first longitudinal end 2 of the leaf 1 to deviate beyond a certain distance from the frame 10, when the leaf 1 is in its oscillating opening position, and thus restrict the range of movement allowed for the leaf in this opening configuration.
  • the base 95 is fixed on the wing 1 in rabbet, in particular in the first lateral groove previously described.
  • the groove of the base 95 extends in the lateral direction X of the leaf 1, so that it serves as a guide in displacement in this direction X for the projection of the first retaining member 91, which can slide in this direction X when the first ordered rod moves.
  • the second retaining member 92 is integral with one of the two branches 93 of the compass, in particular being formed integrally with this branch 93 (for example by molding). It is thus understood that the second retaining member 92 is secured to the frame 10 via this branch 93 of the compass.
  • the second retaining member 92 comprises two walls that extend in the lateral direction of the leaf, when the compass is folded (its two branches then apply one on the other) to allow the leaf 1 to adopt its closing position.
  • the projection of the first retaining member 91 is engaged between the two walls of the second retaining member 92 to prevent disengagement of the first longitudinal end 2 of the leaf 1, when the leaf is in the closed position while the first controlled rod 55 is outside its unlocking position of the oscillating opening of the leaf (for example when this rod is in one of the two positions illustrated in FIGS. Figures 2B and 7A ).
  • the locking control device 20 comprises at least one (only one in the illustrated example) first pivot member 61 movably integral with the second controlled rod 65 and a second pivot member 100 integral with the frame 10, which are capable of cooperating with each other to allow the oscillating opening by pivoting of the leaf 1 around its lateral axis X1 and to be released from one another to allow the pivotally swinging opening of the leaf 1 around its longitudinal axis Z1.
  • first pivot member 61 is formed in one piece with the third bolt, so that the roller of the latter can cooperate with its associated strike 62 as well as with the second pivot member 100, depending the position adopted by the second rod 65.
  • the second pivot member 100 is a strike for conventional pivoting, wherein the roller can be inserted to make an annular ball joint connection for pivoting the leaf about its lateral axis X1.
  • the second pivoting member 100 is directly attached (for example not screwed) to a part of the perimeter of the frame 10 which extends in the lateral direction X (in particular on the crosspiece of the frame 10 previously mentioned, for example in the vicinity of the third striker 62), in particular in a clearance that includes said portion to allow the closing of the leaf 1.
  • the locking control device 20 is thus such that the first retaining member 91 cooperates with the second retaining member while the first and second pivot members 61, 100 are released from one another, when the retaining bar control 45 is moved between its locking and unlocking positions of the swing opening of the leaf 1 (in particular between the positions illustrated in FIGS. Figures 2B, 2C , 7A and 7B ) and that, in its locking position, the control rod 45 is adapted to be translated by a second actuator (B) of the actuator (which is illustrated in FIG.
  • the first actuation A of the actuator 30 allowing the unlocking of the swing opening of the leaf 1 and the second actuation B of the actuator 30 for unlocking the oscillating opening of the leaf 1 cause in this example the same direction of translation of the control rod 45.
  • control rod 45 (and thus also the controlled rods 55 and 65 that it moves in its movement) adopts a position of unlocking the oscillating opening by the second actuator B of the actuator 30 which is further apart its locking position as the unlocking position of the swing opening it adopts by the first maneuver A of the actuator 30.
  • first and second maneuvers of the actuator A and B implement a same kinematic movement of the lever 33 of the actuator 30, in particular pivoting of the lever 33 around the same pivot axis and with separate travel ranges for both A and B maneuvers.
  • the first and second maneuvers of the actuator A and B implement separate kinematics, with trajectories for each of the two maneuvers A and B.
  • the first maneuver A consists of a pivoting of a lever around a first pivot axis
  • the second maneuver B consists of a pivoting of said lever or of another gripping means around a second pivot axis not collinear with said first axis, for example perpendicular to the latter.
  • the locking control device 20 comprises a mechanism 110 for maintaining the unlocking configured to maintain the control rod 45 and the controlled rods 55 and 65 spaced apart from their respective locking positions, when the leaf 1 is outside its closed position; and means 118 for deactivating said holding mechanism 110 during closing of the leaf 1 to allow the control rods 45 and controlled 55 and 65 to adopt their respective locking positions under the effect of the first return means 70.
  • the mechanism 110 comprises a groove 116 which in this example is formed in the control rod 45 so as to extend in the longitudinal direction Z; and a projection 112 adapted to be movably mounted on the leaf 1 and to be engaged in the groove 116.
  • the projection 112 can pivot, in particular around an axis parallel to the lateral direction X of the leaf 1 (in particular being secured to a housing 120 which can be fixed to the fixed rod 46 or elsewhere on the leaf 1) between on the one hand a so-called “maximum width” position in which the projection 112 has in the transverse direction Y to the control rod 45 (ie in the direction perpendicular to the plane formed by the longitudinal Z and lateral X directions) a maximum bulk and on the other hand a position called “minimum width” in which the projection 112 has in said transverse direction Y a minimum size.
  • the groove 116 generally has a width sufficient in the transverse direction Y to allow the groove 116 to slide relative to the projection 112 in its maximum width position.
  • the groove 116 locally comprises at least one passage restriction 114 against the edge of which the projection can abut when the latter adopts its position of maximum width to restrict the travel path of the control rod 45, and whose width in the transverse direction Y of the reduced passage that it defines still allows the passage of the projection 112 when the latter adopts its position of minimum width.
  • the holding mechanism 110 further comprises biasing means (for example a spring) of the projection 112 towards its maximum width position (not shown); and a lever 118 as means for disabling said mechanism of holding 110 when closing the leaf 1, which is integral in displacement of the projection 112 and whose movement is solicited by the closing movement of the leaf.
  • biasing means for example a spring
  • the lever 118 adopts a position of approaching the control rod 45, when the projection 112 adopts its position of minimum width, and the lever 118 adopts a position of separation of the control rod 45 when the projection 112 adopts its position of maximum width.
  • the lever 118 adopts its spacing position under the effect of the return means so that the projection adopts its position of maximum width.
  • the lever 118 cooperates with the frame (or another leaf when two leaves are mounted in the frame), in particular with an amount of the latter so as to be returned to its position bringing the projection 112 to its minimum width position.
  • the groove has only one and only passage restriction 114, so that the mechanism 110 is configured to maintain the control rod 45 and the controlled rods 55 and 65 spaced apart from their respective locking positions. only when the leaf is in its oscillating opening position (it can however be provided, without departing from the scope of the present invention, a holding mechanism configured to maintain said rods spaced apart from their respective locking positions only when the leaf is in its swing opening position, it is sufficient to move the passage restriction 114 in the longitudinal direction Z to adopt the position to produce this effect).
  • the projection 112 is in its position of minimum width because the lever 118 is held in its position of approaching the control rod 45 (see FIG. Figure 2B ) by cooperating with the frame. Therefore, the control rod 45 can move freely between its locking position and its unlocking position of the swing opening (see FIG. Figure 7A ) between its locking position and its unlocking position of the oscillating opening (see figure 11A ).
  • the projection 112 When the leaf is in its swing opening position, the projection 112 is in its position of maximum width because the lever 118 is no longer requested by the frame and under the effect of the return means.
  • the position in the longitudinal direction Z of the passage restriction 114 is chosen so as not to impede the return of the control rod 45 (and indirectly the controlled rods 55 and 65) in its locking position under the effect first return means 70 (see figure 16A ; it is noted that the projection 112 is free to move relative to the first portion 116B of greater width of the groove 116).
  • the projection 112 in its maximum width position abuts against an edge of the passage restriction 114 and thus keeps the control rod 45 away from its locking position so as not to break the cooperation between the first and second pivot members 61, 100 (see FIG. figure 19B ; it is noted that the protrusion 112 is blocked in the second portion 116A of great width of the groove 116).
  • the passage restriction 114 of the groove 116 constitutes means for preventing, when the leaf 1 is outside its closed position, the direct displacement of the control rod 45 between its unlocking position of the swing opening of the leaf and its unlocking position of the oscillating opening of the leaf 1, so that the first maneuver A and the second maneuver B of the actuator 30 can be carried out only from the closing position of leaf 1.
  • FIG. 23A and 24 there is illustrated a second example of a lock control device 20A according to the present invention, which differs from that previously described only in that the second and third lock assemblies 50A and 60A are conventional lock assemblies which are not able to cooperate by a camming effect when closing the leaf (see figure 24 and more particularly the conventional striker 62A).
  • only the first lock assembly 40 is a cam lock assembly.
  • control rod 45 and the controlled rods 55 and 65 spaced from their positions of respective latches to prevent conventional locking assemblies from interfering with the closing of the leaf while abutting against each other.
  • the unlocking mechanism 110A is configured to maintain the control rod 45 and the controlled rods 55 and 65 spaced from their respective locking positions, both when the leaf 1 is in its oscillating opening position that when it adopts its swinging opening position.
  • the mechanism 110A includes a second passage restriction 114A, in addition to the restriction 114 previously described, whose edge cooperates with the projection 112 to lock the control rod 45 when the leaf is in its swing open position ( see it Figure 23A ).
  • FIGS 25, 25A , 26 and 27 there is shown a third example of a lock control device 20B according to the present invention, which differs from the first example only in that the third lock assembly 60B is a cam lock assembly comprising a movable keeper 62B .
  • This movable striker 62B is able to be biased by the cam effect (which is generated by the cooperation between the striker 62B and the associated bolt 61B during the closure of the leaf) in the direction N of its disengagement with respect to the associated bolt 61B when closing the leaf 1.
  • the movable striker 62B is able to move in the lateral direction X, in the direction N opposite to the direction of the unlocking translation of the second controlled rod 65 (see the arrow of the figure 25A ), when the movable striker 62B cooperates with the cam associated bolt 61B during closing of the leaf.
  • the device 20B comprises second return means (in particular the spring 63B illustrated in FIGS. Figures 26 and 27 ) able to urge said movable striker in the opposite direction to the direction of its disengagement (in particular in the opposite direction to the N previously mentioned).
  • second return means in particular the spring 63B illustrated in FIGS. Figures 26 and 27 .
  • FIG. 28 and 28A there is shown a fourth example of a lock control device 20C according to the present invention, which differs from the first example only in that it further comprises at least one additional rod which is able to be mounted slidably in the longitudinal direction Z on the leaf 1, and which is able to be coupled in displacement with a controlled rod (in particular the second controlled rod 65) so that a translation of the control rod 45 in the longitudinal direction controls a translation of said additional rod in the longitudinal direction through said rod commanded.
  • a controlled rod in particular the second controlled rod 65
  • control rod 45 and the additional rod are able to be mounted in the vicinity of the first and second lateral ends of the leaf (ie the two ends of the leaf which are spaced in the lateral direction and which extend in the longitudinal direction ).
  • the device further comprises at least a fourth locking assembly, preferably a cam, comprising a fourth bolt 121 secured to this additional rod and an associated strike.
  • the coupling in displacement of said controlled rod 55 with the additional rod can be carried out by means of a device with two rods 136 and 137 of the type of those previously described, and of at least one rod intermediate 135.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
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EP12744058.4A 2011-07-06 2012-07-06 Dispositif de commande de verrouillage multipoint pour un vantail ouvrant Active EP2729647B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR1156109A FR2977620B1 (fr) 2011-07-06 2011-07-06 Dispositif de commande de verrouillage multipoint pour un vantail ouvrant
PCT/FR2012/051604 WO2013004981A1 (fr) 2011-07-06 2012-07-06 Dispositif de commande de verrouillage multipoint pour un vantail ouvrant

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EP2729647A1 EP2729647A1 (fr) 2014-05-14
EP2729647B1 true EP2729647B1 (fr) 2017-08-23

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EP (1) EP2729647B1 (es)
ES (1) ES2648811T3 (es)
FR (1) FR2977620B1 (es)
WO (1) WO2013004981A1 (es)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102013200384A1 (de) * 2013-01-14 2014-07-17 Aug. Winkhaus Gmbh & Co. Kg Verschluss für einen Treibstangenbeschlag
US11585122B2 (en) * 2018-12-19 2023-02-21 Jeld-Wen, Inc. Shoot bolt for limiting movement of a fenestration panel
CN114543189B (zh) * 2022-01-29 2024-03-19 青岛海尔空调器有限总公司 水洗空调

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2403440A1 (fr) * 1977-09-16 1979-04-13 Laperche Sa Serrure a penes multiples perfectionnee
FR2488318B1 (fr) * 1980-08-08 1985-07-26 Chauvat Sofranq Serrure a larder du type trois points
DE3901998A1 (de) * 1989-01-24 1990-08-02 Winkhaus Fa August Eckverriegelungseinrichtung fuer fenster oder tueren
DE29500502U1 (de) * 1995-01-13 1995-03-09 Hoppe Ag, St Martin Mehrpunktverriegelung
DE19625946C2 (de) * 1996-06-28 1998-10-29 Pax Gmbh Kombination aus Flügelrahmen und Blendrahmen eines Fensters/einer Tür
FR2755719B1 (fr) * 1996-11-12 1999-01-08 Alcan France Dispositif de fermeture d'un ouvrant a frappe, pour porte, fenetre ou analogue
DE102006035358A1 (de) * 2006-10-19 2008-04-24 Aug. Winkhaus Gmbh & Co. Kg Antriebseinrichtung für einen Treibstangenbeschlag

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ES2648811T3 (es) 2018-01-08
EP2729647A1 (fr) 2014-05-14
FR2977620B1 (fr) 2013-08-09
FR2977620A1 (fr) 2013-01-11
WO2013004981A1 (fr) 2013-01-10

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