EP2578778A1 - Feststellvorrichtung eines Öffnungselements eines Bauelements, das über Hilfsmittel zum Verriegeln und Entriegeln des Öffnungselements verfügt - Google Patents

Feststellvorrichtung eines Öffnungselements eines Bauelements, das über Hilfsmittel zum Verriegeln und Entriegeln des Öffnungselements verfügt Download PDF

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Publication number
EP2578778A1
EP2578778A1 EP12352003.3A EP12352003A EP2578778A1 EP 2578778 A1 EP2578778 A1 EP 2578778A1 EP 12352003 A EP12352003 A EP 12352003A EP 2578778 A1 EP2578778 A1 EP 2578778A1
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EP
European Patent Office
Prior art keywords
opening
locking
frame
electric actuator
unlocking
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.)
Granted
Application number
EP12352003.3A
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English (en)
French (fr)
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EP2578778B1 (de
Inventor
Patrick Lahbib
Serge Dieude
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.)
Hydro Extruded Solutions AS
Original Assignee
Norsk Hydro ASA
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Publication date
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Publication of EP2578778A1 publication Critical patent/EP2578778A1/de
Application granted granted Critical
Publication of EP2578778B1 publication Critical patent/EP2578778B1/de
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B47/00Operating or controlling locks or other fastening devices by electric or magnetic means
    • E05B47/0001Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
    • E05B47/0012Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof with rotary electromotors

Definitions

  • the state of the art teaches such closure devices.
  • the locking and unlocking are effected by means of an operating handle which the operator must grasp and actuate, for example by rotation.
  • the handles can be, on the one hand, arranged in a location accessible only with difficulty for some people, especially persons with reduced mobility and, on the other hand, require a force often important to operate by rotation of the handle compression seals simultaneously locking, or overcome the blocking force / friction due to this compression when unlocking by reverse rotation of the handle.
  • the solution according to the invention makes it possible to integrate a specific system, as defined, for assistance with locking and unlocking, in the opening and more particularly to integrate in a constituent section of the latter means of control of the locking system so as to make these means, at least in large part and more particularly the actuator, not apparent.
  • a conventional closure device can be provided with the assistance system according to the invention by replacing the conventional mechanism of handle operation of the locking / unlocking system, while using the existing latch and bolt locking system, for example a system cremone rod with associated locking pins.
  • the rotary electric actuator has a drive shaft which carries the screw of said screw-nut connection and is arranged in such a way that its axis of rotation is parallel to the longitudinal direction of the profile in which it is arranged.
  • the lock means or bolt means of the locking and unlocking system which is associated with the opening leaf is fixed to the nut of said screw-nut type connection so as to move in translation in said longitudinal direction of the profile with the nut.
  • the rotary electric actuator is connected to the profile in which it is arranged, via a connecting plate on which the body of the rotary electric actuator is fixed, and on which the connection of the type screw-nut is arranged.
  • control means of the locking and unlocking system furthermore comprise a mechanical emergency system capable of being operated by an operator by means of a manual emergency control in the event of a power supply fault of the operator.
  • rotary electric actuator capable of being operated by an operator by means of a manual emergency control in the event of a power supply fault of the operator.
  • the arrangement of the electric actuator on an intermediate movable stage between the profile and the actuator advantageously and simply makes it possible to remedy a failure of the actuator or of the power supply or other failures of the control system of the assistance to the actuator. locking / unlocking, by operating the plate by means of a manual control, preferably concealed for aesthetic reasons, as will be explained later.
  • control means of the electric actuator comprise a switch means adapted to be actuated by an operator, whose visible upper surface is inscribed in a window made on an outer wall of a profile of the opening.
  • the system according to the invention makes it possible to eliminate from the opening all operating handle of the locking and unlocking system, and to replace it by a more discrete switch means, for example a sensitive or tactile switch, a signal receiver without wire for remote operation of the locking / unlocking system, a voice command receiver, etc.
  • the switch necessarily has the function of activating the unlocking of the door and, additionally if necessary as will be explained more far, the locking function of the opening when it is not provided by another control member.
  • said emergency manual control means comprises a rack-and-rack type device arranged in such a way that the rack is fixed to said connecting plate, and that the pinion is arranged inside the contour of said window. made on an outer wall of a section of the opening and under the visible upper surface of said switch means, the pinion being provided with a gripping means adapted to cooperate with a tool for the rotation of the pinion to manipulate the rack and the visible upper surface of said switch means being removable to access said engaging means.
  • the window made in the profile allows a dual function: to define the location of the switch means and thus its accessibility, while allowing very fluid aesthetics eg flush of the upper surface of the switch means with the outer surface of the profile, and also allow access to the manual locking / unlocking not visible which is advantageously hidden under the removable upper surface of the switch means.
  • said switch means is a touch switch.
  • the closure device further comprises a system for immobilizing the opening relative to the frame in a pre-locking position, the opening being pressed against the frame and not locked, arranged to so that said strike means and said bolt means are adapted to cooperate with each other under the effect of the rotary electric actuator, from this pre-locking position.
  • the locked position of an opening requires compression of the seals that are arranged between the opening and the frame, an effort that can be significant.
  • the elasticity of the various seals of the sealing system tends to push the opening of the frame.
  • the immobilization or blocking of the opening in a pre-locking position advantageously prevents the operator from having to maintain the compression of the seals during the time required for the electric actuator to lock the opening .
  • the operator can thus be satisfied with the present feature to take the opening in the pre-locking position by means of moderate and punctual effort which can also be provided by the inertia of the opening in its movement during the plating of this one against the sleeping frame. Then, when the opening is immobilized in this pre-locking position against the frame, the effort of the operator on the opening can be released the immobilization system taking over, and the locking system assisted by locking the opening automatically or by means of a switch actuated by the operator as the case may be.
  • the immobilization system of the opening relative to the frame in said pre-locking position comprises a releasable resilient locking means comprising a first element fixed on the frame and a second element fixed on the door, said first and second elements cooperating with each other by a resilient frictional connection in order to achieve at least one locking point of the opening relative to the frame in its plating position against the frame, able to be released under the effect of a pivoting force exerted on the opening to open.
  • a hobo device or the like may, for example, be suitable for the implementation of this characteristic, as will be described later by means of an exemplary embodiment of the invention.
  • This houssette device can be preferably multiple and distributed across the top and bottom of the closure device and near the amount of rotation, to form several locking points and thus ensure a better hold of the opening in closing position and pre locking.
  • said shutter closing sensor is connected to the electrical supply circuit of the rotary electric actuator so that it sends a control signal of the electric actuator when it is activated by the opening pressed against the frame.
  • the latter prevents the possible consequences of inadvertent actuator control when the sash does not open. is not in the right position for its locking, or pre-locking position, at least by limiting the power supply of the actuator to the position of the opening in which it must act.
  • the closure sensor thus avoids damaging the locking system when an attempt is made to close the door while its locking system is in the locking position.
  • the power supply of the electric actuator is thus advantageously made effective only when the leaf is pressed against the frame, when the closing sensor of the leaf is actuated.
  • the closing sensor is not actuated and the supply circuit of the electric actuator is thus open whatever the manner electrically powering the actuator; under these conditions, even if the operator inadvertently maneuvers the lock switch, the electric actuator does not act on the control system. locking.
  • the closing sensor may consist of a contactor with a tab, lever, or operating knob, of the end-of-travel type, fixed for example in a recess on the frame or the opening, preferably the frame, whose lever or the button is actuated by the opening or the frame, respectively, preferably the opening, connected to the supply circuit of the electric actuator according to the alternatives indicated above.
  • the closure device further comprises a system for ejecting the opening, passing the latter from its pre-locking position to a half-open position by releasing the opening of said immobilization system by relative to the frame in said pre-locking position, which uses the displacement of the striker means or the bolt means during unlocking of the opening.
  • the half-open position is qualified as such when the opening has been ejected in an open or ajar position, beyond the locking system in pre-locking position, and remains close to this position.
  • the opening remains pressed against the frame since the repulsive forces of the seals are generally insufficient to cause the ejection of the sash out of the immobilization system or locking in pre-locking position .
  • the ejection system advantageously ensures the decompression of the seals and the opening of the sash by forcing said locking immobilizer system to allow the operator to grip this opening, for example by its periphery, to open it completely without any other effort than that of the pivoting of the opening. No maneuvering handle is thus necessary for the opening of the opening.
  • said sash ejection system comprises an inclined ramp associated with the frame cooperating with an abutment formed on the bolt means or the keeper means associated with the sash, during the movement of said bolt means or said latch means of the locked position to the unlocked position, to force the pivoting of the leaf in said ajar position during the unlocking thereof.
  • said abutment formed on the bolt means or the strike means associated with the sash consists of at least one pawn protruding on a sliding rod means forming the bolt means associated with the opening, cooperating with the strike means associated with the frame, when locking and unlocking the door.
  • This feature advantageously uses elements of the existing locking and unlocking system to eject the opening giving these elements additional functionality.
  • the profiles 40, 14 constituting the frame 1 and the sash 2 are hollow-section profiles, preferably conventional, for example metal profiles of light alloy and thermal break as shown in FIG. figure 4 .
  • the profiles 40 of the frame 1 may, for example, have a conventional cross-section comprising an L-shape defining a reception rabbet of the opening 2, which will be used to house members of the device. closure according to the invention as explained below.
  • the opening 2 advantageously has conventional profiles 14, complementary profiles 40 of the frame 1 to cooperate with them to produce a device for closing a building opening.
  • the system 4 for locking and unlocking the leaf 2 on the frame 1 is also advantageously conventional in that the striker means 5 is for example formed by a plurality of metal tabs fixed in the L-shaped rabbet of the frame 1 so that distributed on one or more sides of the frame 1, as shown in figure 1 .
  • the bolt means 6 is itself also advantageously conventional and formed in known manner for example by a rod 32 sliding in the plane of the opening longitudinally along the profile or profiles 14 of the opening, and on which are fixed a plurality of pins 31.
  • the locking system 4 has as many pins 31 as metal tabs forming strikes 5, a pin 31 being intended to be housed by translation behind a metal tab to form a locking point, as shown on the figures 11 12A and 13A .
  • the locking of the opening 2 on the frame 1 is achieved by the translational movement of the sliding rod 32 and associated pins 31 which are positioned behind the latches 5.
  • the unlocking is achieved by the reverse displacement in translation of the rod 32 sliding and associated pins 31 which are positioned outside the latches 5 so that, when the opening 2 pivots, the pins 31 are released strikes 5 and do not interfere with the pivoting of the opening 2, as shown on the Figures 12B to 12D and 13B to 13D.
  • the sliding rod 32 may advantageously run continuously on the periphery of the opening 2, with the exception of the hinged side of the opening 2 carrying hinges 41, that is to say on the three free sides of the opening 2 as shown on the figure 1 , using angle references 42 in a known manner.
  • the rotary electric actuator 8 is connected to a point of the sliding rod 32, via its drive shaft and the connection 9 screw-nut, for example at one end of the rod 32, in particular that located in the lower rail of the opening 2 in the example shown on the figure 1 .
  • the actuator 8 and the link 9 screw-nut are thus integrated into the lower cross member of the opening 2 as explained below.
  • the rotary electric actuator 8 advantageously has at least one drive shaft 11 which is coupled, via a coupling sleeve 50, to the aligned screw 12 of the screw-nut type connection 9, and is arranged such that so that its axis of rotation 13 is parallel to the longitudinal direction of the section 14 in which it is arranged.
  • the rotary electric actuator 8 may consist of any electric motor or geared motor, of elongate shape, the number of one or more, may be slid into a cell 43 or a longitudinal housing of the profile 14.
  • the cross section of the electric motor, taken along its outer perimeter will be smaller than the cross section of the cell 43 defined by the walls thereof, as shown in FIG. figure 4 .
  • the motor axis of the actuator 8 should preferably extend in the longitudinal direction of the body of the actuator 8 to obtain a motor axis parallel or substantially parallel to the longitudinal direction of the profile 14.
  • the sliding rod 32 provided with of its pins 31 is fixed to the nut 15 of the connection 9 of the screw-nut type, according to any appropriate means, for example directly or via a link rod, so as to move in translation in the longitudinal direction of the profile 14 with the nut 15, as shown in the FIGS. 2A to 2C .
  • the rotary electric actuator 8 is advantageously connected to the profile 14 of the opening 2 in which it is arranged, via a connecting plate 16 on which the body 17 of the rotary electric actuator 8 is fixed, and on which the connection 9 screw-nut type is arranged.
  • the screw 12 of the link 9 screw-nut is rotatably mounted relative to the plate 16 by being connected to the motor shaft as explained above, and fixed in translation relative to this plate 16.
  • the nut 15 of the link 9 screw-nut is meanwhile mounted free in translation relative to the plate 16 and fixed in rotation relative thereto.
  • the body of the actuator 8 could be directly attached to the profile 14, but preferably it is connected to the profile by said plate 16 intermediate to ensure longitudinal mobility of the assembly constituted by the actuator 8 , the connection 9 screw-nut, and the associated locking rod 32, thanks to the mobility of the connecting plate 16, to advantageously endow the closure device shown with a manual emergency locking and unlocking system as explained hereinafter. below.
  • the actuator 8 is fixed to the plate 16 by its body by means of a mounting bracket 45 for example, and the end of the screw 11 opposite to that coupled to the motor is also connected to the plate 16, but by intermediate a connection to a degree of freedom in rotation by means of a connecting support 46 to ensure a good maintenance of the rotary screw 11 at both ends.
  • the nut 15 of the link 9 screw-nut can be immobilized in rotation by the external shape of its cross section, for example a prismatic shape substantially complementary to the shape of the cross section of the housing in which the nut 15 moves in an exclusive movement of translation.
  • the locking system 4 is activated, the nut 15 is in distal abutment on the support 46.
  • the locking system 4 is deactivated, the nut 15 is in proximal abutment on the motor side 8.
  • the presence of two stop springs (not shown) suitably positioned at both end stops of the nut 15 is preferred .
  • the displacement of the nut 15 between these two extreme positions determines the stroke of the sliding rod 32 of the locking system. This stroke must at least represent the stroke necessary for the locking pins 31 to pass from the locking position behind the strikers 5, to the unlocking position releasing the pins 31 from the catches 5.
  • this stroke also advantageously includes an additional displacement of the sliding rod 32 required for the ejection system 29 of the opening 2.
  • the locking system 4 is deactivated, the nut 15 is represented in a substantially median position between the two extreme positions of the Figures 2A and 2B , corresponding in the example to an unlocking of the pins 31, and to an ejection system 29 having not yet made effect.
  • the actuator 8 in the closed opening position, the actuator 8 is energized and therefore in operation, and in open opening position beyond 20 ° opening, the actuator 8 is no longer powered, the conductive fingers no longer in contact with the conductive pads.
  • Other flexible supply systems can be used, for example a permanent supply of flexible cables passing through the hinged side in order to limit, or even completely hide, the electric cables.
  • the closure device shown may comprise an electronic card (not shown) for managing the power supply and electrical or electronic devices used, such as the electric actuator (s) 8, a closing sensor 29 as will be described in more detail below. , the control means 10 of the actuator 8, which is integrated in a hollow recess of the profiles.
  • control means 7 of the locking and unlocking system 4 furthermore advantageously comprise a mechanical emergency system 18 capable of being operated by an operator by means of a manual emergency control 19 in the event of a power supply fault. 8 rotary electric actuator.
  • connection 44 comprising a degree of freedom in translation of the plate 16 along the longitudinal axis of the profile 14 can be provided by means of a sliding interlocking of the transverse sections of said plate 16 and the cell 43 of the profile 14 of opening in which it is slipped.
  • the emergency manual control means 19 comprises a rack-and-rack device 21 arranged in such a way that the rack 22 is fixed to the connecting plate 16 which is movable in translation, and that the pinion 23 is linked by a link to a degree of freedom in rotation to the profile 14.
  • the rack 22 extends in the longitudinal direction of the profile 14 so that its displacement in translation under the effect of the manual rotation of the pinion 23 causes the displacement in translation of the plate 16 in this longitudinal direction of the profile 14.
  • the pinion 23 is arranged to be substantially disposed in the middle of the rack 22 in the middle position of rest defined above, to allow a translational movement of the plate 16 to the inside the profile 14 in a direction and in the opposite direction from this median position, depending on whether the operator turns the pinion in a direction of rotation or its direction inverse, to put the mechanical system 18 locking and emergency unlocking in the second position or active unlocking position, or in the third position or active locking position, respectively, as defined above.
  • the pinion 23 is provided with a gripping means 24, for example a square hole, adapted to cooperate with a tool 60, for example a square-type key in the case of a gripping means constituted by a square hole. , for the rotation of the pinion 23 to operate the rack 22.
  • This pinion 23 is advantageously concealed under the means 10 for controlling the rotary electric actuator 8 operable by an operator, as shown in FIG. figure 7 B , part of which is removable in order to access the emergency manual control means, in this case pinion 23.
  • the control means of the electric actuator capable of being actuated by an operator advantageously comprises a switch means 10, for example a touch switch, the visible upper surface of which is inscribed in a window 20 made on a wall outer section of a profile 14 of the opening, as shown on the Figures 6, 7 , and 10 .
  • the visible upper surface of the switch means 10 is advantageously removable, to access the engagement means 24 located on the pinion 23, for example by pressure, if appropriate, and sliding as shown in FIGS. Figures 7A and 7B , or by clipping (not shown).
  • the pinion 23 is arranged inside the contour of the window 20 and under the visible upper surface of the switch means 10.
  • the rack 22 is immobilized with respect to the section 14 by any immobilization means that can be dismantled, preferably by an obstacle, for example.
  • any immobilization means that can be dismantled, preferably by an obstacle, for example.
  • a locking screw 47 as shown on the figure 5 , that the operator must unscrew to be able to maneuver the pinion 23.
  • the closure device shown in the figures, more particularly the figure 8 further advantageously comprises a system 25 for immobilizing the opening 2 relative to the frame 1 in a pre-locking position, in which the opening 2 is pressed against the frame 1 and not locked, arranged so that the means 5 and latch means 6 are adapted to cooperate with each other under the effect of the rotary electric actuator 8, from this pre-locking position.
  • the system for immobilizing the opening 2 relative to the frame 1 in this pre-locking position comprises a releasable resilient locking means comprising a first element fixed on the frame 1, and a second element fixed on the opening 2, these first 26 and second 27 elements cooperating with each other by a friction elastic connection to achieve a locking point by friction of the opening 2 relative to the frame 1 in its position of plating against the frame 1, able to release under the effect of a pivoting force exerted on the opening 2 to open.
  • Such an immobilization system may consist of one or more locking points distributed in several places around the sash frame 2, preferably towards the hinged side of the opening carrying the hinges 41, as shown in FIG. figure 1 .
  • a blocking point consists, for example, of a device of known type, a houssette, composed of a U-shaped spring element 26 and a complementary element of the pion type which snaps into the spring element 26 by elasticity of the latter. Once nested, the spring element 26 resumes its rest form to trap the element 27 pin inside. To extract the striker pin 27 from the spring-loaded element 26, it suffices to exert a traction force on the striker pin 27 in order to compress the spring element 26 which resumes its shape at rest after passage. of the pawn 27.
  • the straps 26, 27 and their positions on the profiles, will be chosen so that once the pin 27 in place in the spring element 26, the latter returns to its initial position and prevents the pawn from emerging its elasticity being such that it requires to deform a force greater than that produced by the seals.
  • the closure device further advantageously comprises a sensor 28 for closing the opening 2, fixed in the example in the rabbet of a profile 40 of the frame 1, cooperating with an abutment formed on the opening 2, preferably directly by a constituent section thereof, when the opening 2 is in pre-locking position pressed against the frame 1.
  • the closing sensor 28 of the opening 2 is preferably connected to the power supply circuit of the 8 rotary electric actuator so as to allow its operation in this pre-locking position by establishing the continuity of the electrical supply circuit of the rotary electric actuator 8, and to prevent its operation in an open position of the opening 2 beyond the pre-locking position by cutting off this supply circuit.
  • the sensor 28 comparable to a limit switch, is arranged in the upper part of the opening near a shroud 26, 27 to ensure proper operation thereof regardless of possible deformations of the opening, that is to say to ensure the activation of the sensor 28 in the pre-locking position.
  • the end-of-stroke sensor 29 is connected to the electrical supply circuit of the electric actuator 8 so that it sends an order when it is actuated in the open-locking pre-locking position against the frame, in order to accomplish the locking of the sash automatically without additional action of the operator other than the pressing of the sash against the frame.
  • the sensor 29 is advantageously in the example a means constituting the control means of the electric actuator 8.
  • the switch 10 thus provides in the example only a control function of the unlocking of the opening.
  • the closure device shown in the figures, more particularly the figures 8 , 11 and 12 furthermore advantageously comprises a system 29 for ejecting the opening 2, passing it from its pre-locking position to a half-open position by releasing the opening 2 of the immobilization system 25 with respect to the frame 1 in the position pre-locking, that is to say in the example by releasing the opening 2 of the or struts 26, 27.
  • the ejection system advantageously uses the displacement of the bolt means 6 during the unlocking of the opening 2 as explained below.
  • the system 29 for ejecting the opening 2 comprises, for example, an inclined ramp 30 associated with the frame 1 cooperating with an abutment 31 formed on the bolt means 6 associated with the opening 2, during the displacement of this bolt means 6. from the locked position to the unlocked position, in order to force the pivoting of the opening 2, in the half-open position, during the unlocking thereof, by transforming the displacement in translation of the sliding rod 32 in rotational displacement of the opening 2.
  • the ejection system may comprise one or preferably several ramps 29 in order to distribute the release force of the struts 26, 27 at several points of the periphery of the opening 2.
  • the inclined ramp or ramps are fixed in the rabbet the frame 1 close to the latches 5 to advantageously use the pins 31 associated with the sliding rod 32 for both the locking / unlocking of the opening 2 and as a stop for the ejection of the leaf 2.
  • the inclined ramp (s) are fixed in the rabbet of the frame 1 close to the hoopettes in order to have a relatively direct and effective action on them avoiding the possible flexibility of the sash profiles 14.
  • a ramp 30 inclined can be for example materialized by a rigid pin fixed in the rabbet of the frame 1, as shown in the figures 11 and 12 such that a pin 31 associated with the ramp 30 is able to traverse the ramp by abutting it during the translational movement of the sliding rod 32 as shown in FIGS. Figures 12B and 12C .
  • said stop formed on the bolt means 6 associated with the opening 2 is preferably constituted by at least one pin 31 projecting on the sliding rod means 32 forming the bolt means 6 associated with the opening 2, cooperating with the strike 5 means associated with the frame 1, during the locking and unlocking of the opening.
  • the figure 13A represents the opening in the closed position and locked on the frame: the locking pin 31 is behind the striker 5; in the alignment of the trajectory of the pin 31 we see the inclined ramp 30 which must intercept the pin 31 in its trajectory, and the pin 27 of the houssette which is represented beyond the ramp 30 and must not interfere with the trajectory of the locking pin 31 which must be free between the keeper and the inclined ramp.
  • the stroller 26, 27 will be disposed near the ramp 30 so that the effect of the latter is as direct as possible relative to the houssette (removing any flexibility of the opening).
  • the pin 27 of the houssette is of course housed in the spring 26 of the houssette and performs its function of retention of the opening in the plated position against the frame, corresponding to the pre-locking position.
  • the pawn 27 of the houssette remains of course in the spring 26 of the houssette during the lock and in the locked position.
  • the Figure 13B represents the opening in the unlocked position, following the activation of the unlocking by the operator having actuated the switch 10, the electric actuator 8 having longitudinally slid the rod 32 with the locking pin 31 which is thus released from behind the striker 5 which no longer holds the opening in its closed position; the hibble pin 27 is always housed in the spring 26 of houssette, the opening being still pressed against the frame, and the opening is still held against the frame by the houssette; it should be noted that the Figure 2B also represents, in the reverse procedure of closing and locking the sash, the opening in pre-locking position when it has just been pressed against the frame, and the closing sensor 29 has not yet actuated the lock .
  • the figure 13C represents the opening being ejected: from the Figure 13B , after unlocking the opening, the electric actuator 8 remains activated and the rod 32 thus continues its longitudinal unlocking stroke in a longitudinal ejection stroke of the opening which takes the continuation of the unlocking stroke, in a continuous manner for example, until the lock pin 31 abuts against the inclined ramp 30 of the ejection system 29, which is aligned with its path as shown. Then the opening being no longer locked, the pin 31 continues its ejection path being forced by the ramp 30 according to a trajectory component perpendicular to the plane of the opening and in the opposite direction to the beating of the frame, resulting in the pivoting of the opening.
  • the figure 13D represents the open ejected interlocked. After ejection of the opening leaf, the sliding rod 32 is brought back in the opposite direction in the position of the Figure 13B corresponding to the pre-locking position, in order to place the locking system in position to operate the closure of the opening, the inclined ramp 30 thus no longer opposes this closing sash.
  • the figure 13D represent precisely this position of the locking system also extending to the open opening in closure approach. If the operator wishes to close the opening, he has only to press it against the frame ( Figure 13B ) the closing sensor causing the opening of the opening by actuating the electric actuator 8.
  • the present closure device is suitable for any type of opening, for example door, window, French window, etc.

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EP12352003.3A 2011-10-07 2012-10-05 Feststellvorrichtung eines Öffnungselements eines Bauelements, das über Hilfsmittel zum Verriegeln und Entriegeln des Öffnungselements verfügt Active EP2578778B1 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
FR1159068A FR2981109B1 (fr) 2011-10-07 2011-10-07 Fermeture d'ouverture de construction comportant des moyens d'assistance au verrouillage et au deverrouillage de l'ouvrant

Publications (2)

Publication Number Publication Date
EP2578778A1 true EP2578778A1 (de) 2013-04-10
EP2578778B1 EP2578778B1 (de) 2019-02-06

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EP12352003.3A Active EP2578778B1 (de) 2011-10-07 2012-10-05 Feststellvorrichtung eines Öffnungselements eines Bauelements, das über Hilfsmittel zum Verriegeln und Entriegeln des Öffnungselements verfügt

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EP (1) EP2578778B1 (de)
ES (1) ES2714918T3 (de)
FR (1) FR2981109B1 (de)
PT (1) PT2578778T (de)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR3005326B1 (fr) 2013-05-02 2015-06-05 Hydro Building Systems Dispositif motorise de verrouillage/deverrouillage d'un ouvrant, notamment d'une fenetre
FR3012504B1 (fr) * 2013-10-29 2016-01-22 Hydro Building Systems Dispositif d’assistance a l’ouverture et a la fermeture d’un ouvrant a frappe sur chassis

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EP1816292A2 (de) * 2006-02-02 2007-08-08 Aug. Winkhaus GmbH & Co. KG Verschluss für einen Treibstangenbeschlag
DE102006035358A1 (de) * 2006-10-19 2008-04-24 Aug. Winkhaus Gmbh & Co. Kg Antriebseinrichtung für einen Treibstangenbeschlag
EP2206862A2 (de) * 2009-01-12 2010-07-14 HAUTAU GmbH Zungengetriebe zum Verriegeln oder Entriegeln eines Schiebeflügels
AT509225A4 (de) * 2010-04-26 2011-07-15 Hartl Christian Elektrisch betriebenes verriegelungssystem

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US5226256A (en) * 1989-05-12 1993-07-13 Aug. Winkhaus Gmbh & Co., Kg Window system for a building
DE20311828U1 (de) * 2003-07-24 2003-10-02 Gretsch Unitas Gmbh Schließeinrichtung
EP1816292A2 (de) * 2006-02-02 2007-08-08 Aug. Winkhaus GmbH & Co. KG Verschluss für einen Treibstangenbeschlag
DE102006035358A1 (de) * 2006-10-19 2008-04-24 Aug. Winkhaus Gmbh & Co. Kg Antriebseinrichtung für einen Treibstangenbeschlag
EP2206862A2 (de) * 2009-01-12 2010-07-14 HAUTAU GmbH Zungengetriebe zum Verriegeln oder Entriegeln eines Schiebeflügels
AT509225A4 (de) * 2010-04-26 2011-07-15 Hartl Christian Elektrisch betriebenes verriegelungssystem

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FR2981109A1 (fr) 2013-04-12
PT2578778T (pt) 2019-03-27
ES2714918T3 (es) 2019-05-30
EP2578778B1 (de) 2019-02-06
FR2981109B1 (fr) 2014-07-11

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