EP3816379A1 - Positionsdetektor eines beweglichen beschlags eines fenster- oder türrahmens - Google Patents

Positionsdetektor eines beweglichen beschlags eines fenster- oder türrahmens Download PDF

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Publication number
EP3816379A1
EP3816379A1 EP20205352.6A EP20205352A EP3816379A1 EP 3816379 A1 EP3816379 A1 EP 3816379A1 EP 20205352 A EP20205352 A EP 20205352A EP 3816379 A1 EP3816379 A1 EP 3816379A1
Authority
EP
European Patent Office
Prior art keywords
housing
detector
edge
frame
feeler
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
EP20205352.6A
Other languages
English (en)
French (fr)
Other versions
EP3816379B1 (de
Inventor
Stéphane BEAU
Serge Robin
David SERVE
Justin SOURIVONG
Jonathan CAILLAT
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.)
Somfy Activites SA
Original Assignee
Somfy Activites SA
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Somfy Activites SA filed Critical Somfy Activites SA
Publication of EP3816379A1 publication Critical patent/EP3816379A1/de
Application granted granted Critical
Publication of EP3816379B1 publication Critical patent/EP3816379B1/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
    • 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
    • E05C9/02Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing with one sliding bar for fastening when moved in one direction and unfastening when moved in opposite direction; with two sliding bars moved in the same direction when fastening or unfastening
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B17/00Accessories in connection with locks
    • E05B17/22Means for operating or controlling lock or fastening device accessories, i.e. other than the fastening members, e.g. switches, indicators
    • 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
    • E05B2047/0048Circuits, feeding, monitoring
    • E05B2047/0057Feeding
    • E05B2047/0058Feeding by batteries
    • 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
    • E05B2047/0048Circuits, feeding, monitoring
    • E05B2047/0067Monitoring
    • E05B2047/0069Monitoring bolt position

Definitions

  • the present invention relates to a position detector for a movable fitting, the movable fitting being carried by an edge belonging to an opening or to a frame of a frame such as a door, a window or a shutter, and concerns a frame. equipped with such a detector.
  • a position detector is known for a fitting pin of a tilt-and-turn window, which fits into the narrow gap formed between the sash and the window frame, the detector being fixed to the edge of the window. 'opening.
  • the fitting pin projecting from the edge, is movable along the edge under the action of the window handle, between a swing position of the sash, a swing position of the sash, and a position where the sash is kept closed.
  • Such a position detector described by DE 44 44 839 C1 comprises a transmission unit, comprising a housing mounted on the edge of the opening and an angled rod, partially housed in the housing and moved in translation by the pin of the opening.
  • the rod is held in abutment against the pin by a spring contained in the housing.
  • the rod carries a metal plate, which faces a detection unit carried by the frame, to detect the position of the rod and thus determine the position of the pin.
  • the detection unit is wired to a remote supply and operating circuit.
  • the rod emerging from the housing may be straight or bent, such that the metal plate is offset with respect to the outer end of the rod. This elbow allows the rod to move while avoiding a projecting locking housing at the edge of the frame.
  • the detector DE 44 44 839 C1 concerning a frame with a pivoting leaf comprises a remote detection unit, in other words a detector in two parts, which does not concern itself with the integration of batteries and a printed circuit in the housing accommodating the rod.
  • a remote detection unit in other words a detector in two parts, which does not concern itself with the integration of batteries and a printed circuit in the housing accommodating the rod.
  • the outer part of the rod is only slightly guided in translation.
  • the invention therefore aims to remedy the drawbacks of the prior art by proposing a new independent position detector that is easier to install on the frame.
  • the subject of the invention is a position detector for a movable fitting, the movable fitting being carried by an edge belonging to an opening or to a frame of a frame such as a door, a window or a shutter, the detector comprising: a housing, which is configured to be fixed to the edge and which comprises two longitudinal ends crossed by a longitudinal axis of the housing; a bent rod, which is movable in translation relative to the housing along the longitudinal axis and which comprises: a feeler part, which is parallel to the longitudinal axis and which extends at least partially outside the housing, the bent rod being configured to be actuated in translation by the movable fitting via the feeler part; a rear part, which extends inside the housing, the rear part being transversely offset with respect to the feeler part; an intermediate part, which connects the feeler part to the rear part and which extends transversely to the feeler part.
  • the position detector also comprises electronic means, which comprise: a position sensor system, generating position information as a function of the translational position of the bent rod, and a position information transmitter.
  • the detector further comprises at least one battery; the intermediate part, said at least one battery and the electronic means are arranged inside the case; and said at least one battery is arranged, along the longitudinal axis, between the electronic means and the intermediate part of the bent rod.
  • An idea at the basis of the invention is to take advantage of a bent shape of the rod and its integration into a housing of a position detector, so that the transverse part and the rear part of said rod bypass said au minus one battery, so that the rear part reaches the electronic means, in particular the position sensor system and so that the front part moves in the same plane as the fitting of the frame.
  • the transverse part, said at least one battery and the electronic means are thus arranged in the housing successively along the longitudinal axis, a dimension according to which the available space is generally the greatest.
  • Conventional batteries are generally of elongated shape, so that it is easy to provide a longitudinal passage, transversely between said at least one battery and a longitudinal wall of the housing, the longitudinal passage being crossed by the rear part, itself transversely.
  • the detector incorporating, in a single unit, all the means necessary for its operation, the mounting of the detector on the frame is facilitated by requiring only the fixing of the single box on the edge.
  • the detector housing can be housed in a bore formed on the edge of the opening, while the fitting is located on the surface of the edge, the bent shape of the rod making it possible to reach the fitting.
  • the box comprises a front wall connecting the two longitudinal ends to one another, the front wall being intended to be turned in the opposite direction from the edge when the box is fixed to said edge; and the front wall carries an access opening to said at least one battery.
  • the detector comprises a movable drawer, in which is received said at least one battery, the movable drawer being movable relative to the housing, between: a closed position, in which the movable drawer closes the opening and in which said at least one battery. at least one battery is positioned inside the case; and an open position, in which the movable drawer projects out of the housing through the opening, making said at least one battery accessible from outside the housing, in the vicinity of the front wall.
  • the feeler part extends along the front wall; and the rear part extends along a bottom wall of the housing, the bottom wall being parallel and opposite to the front wall.
  • the rear part passes through a longitudinal passage delimited inside the housing, the longitudinal passage being bordered, transversely with respect to the longitudinal axis, by said at least one battery and by the bottom wall.
  • the electronic means comprise: a primary electronic card carrying the position sensor system, the primary electronic card extending parallel to the longitudinal axis and perpendicular to the front wall; and a secondary electronic card carrying at least part of the transmitter, the secondary electronic card extending parallel to the longitudinal axis and parallel to the front wall.
  • the electronic means comprise a detector programming button, which is carried by the secondary electronic card so as to be able to be actuated by a user from the front wall outside the housing.
  • the housing comprises two ears for fixing the housing on the edge, each ear projecting from one of the two longitudinal ends of the housing being coplanar with a plane of the ears, which is oriented parallel to the front wall.
  • the detector comprises an elastically deformable tab, for fixing the box to the edge, which extends outside the box.
  • the tab and one of the ears are arranged parallel to one of the longitudinal ends, so that the detector can be fixed to the edge by pinching the edge between the tab and said lug.
  • the tab comprises two legs defining between them an opening configured to receive a rib belonging to the frame and formed on the surface of the edge, when the detector is mounted on the edge.
  • the electronic means comprise a magnetometer and / or an accelerometer.
  • the detector comprises a feeler tip assembled on the feeler part of the bent rod.
  • a thickness of the feeler tip is greater than a thickness of the feeler part of the bent rod.
  • the subject of the invention is also a frame, such as a door, a window or a shutter, comprising: the detector as described above; the dormant; the sash, which is movably mounted on the frame; and the mobile fitting, carried by the edge belonging to the frame or to the opening, the housing being fixed to said edge, the feeler part of the bent rod of the detector being actuated in translation by the mobile fitting.
  • the figures 1 to 5 show a position detector 12 which is intended to be integrated into a sliding frame 1, which is shown partially, very schematically, in broken lines on the figures 1 and 2 .
  • the frame 1 comprises a sliding sash 3 and a frame 4 on which the sash 3 is slidably mounted.
  • the frame 1 is preferably a window.
  • the frame 1 is a door, for example a French window or bay window, or even a pocket door.
  • the frame 1 is a sliding shutter, or any other similar sliding frame, in particular applicable to a building.
  • the detector 12 is particularly suitable for a sliding door frame.
  • the detector 12 can be integrated into a frame with a pivoting leaf, that is to say hinged and / or oscillating.
  • the frame 4 is a fixed part of the frame 1 and forms a frame delimiting an opening, such as a bay, of a building or of a habitable structure.
  • the frame 4 extends in a plane parallel to a longitudinal axis X20 of the frame 1 and to a transverse axis Z20 of the frame 1.
  • the axes X20 and Z20 are perpendicular.
  • the frame 4 comprises, in its internal contour, a song 6, which belongs to an internal peripheral surface of the frame 4, delimiting part of its internal contour.
  • the edge 6 extends, for its longest dimension, parallel to the axis X20.
  • the opening 3 forms a panel, preferably glazed, which extends in a plane parallel to the axis X20 and to the axis Z20 of the frame 1.
  • the opening 3 comprises an edge 5, which constitutes a part of the surface of the exterior contour of the sash 3.
  • the edge 5 of the sash 3 is, for its longest dimension, parallel to the axis X20.
  • Edge 5 is turned opposite edge 6 of frame 4.
  • the leaf 3 slides with respect to the frame 4, that is to say translates, along the axis Z20, between an open position, in which the edges 5 and 6 are distant according to axis Z20, so as to leave free part of the opening delimited by the frame 4 of the frame 1, and a closed position, in which the edge 5 comes against the edge 6, so that the opening 3 closes the opening of the frame 1.
  • the sash 3 is in the open position.
  • Various intermediate positions can be provided, in particular a locked ventilation position.
  • the opening 3 is equipped with a fitting 112, which is for example formed by a lock. More generally, the fitting 112 is an internal mechanism of the opening 3, which is movable relative to the edge 5. Preferably, the fitting 112 is movable relative to the edge 5 along the axis X20, in translation or in tilting, between a functional locking position of the leaf 3 and a functional unlocking position of the leaf 3. Depending on the situation, other functional positions of the fitting 112 may be provided. When the leaf 3 is in the closed position, placing the fitting 112 in the locking position locks the leaf 3 in the closed position.
  • the fitting 112 advantageously comprises a hook or a pin which protrudes from the edge 5 of the leaf 3, and which, in the locking position, mechanically cooperates with a corresponding part such as a keeper or a bracket, carried by the song 6 dormant 4, coming to cling to it or to be introduced to it.
  • the leaf 3 is advantageously equipped with a handle, which can be actuated by a user, the handle mechanically actuating the movement of the fitting 112 by an internal mechanical linkage of the leaf 3.
  • the fitting 112 can be actuated by the intermediary of an electromechanical actuator fitted to the frame 1.
  • the detector 12 may be designed to detect the position of any point of the fitting 112, in particular a hook or a pin of the fitting 112, set in motion by the handle or by the electromechanical actuator, and for which a locking position of the leaf 3 is detectable by position detector 12.
  • the fitting 112 and the detector 12 are carried by the edge 5 of the opening 3.
  • the detector 12 on a frame, the fitting of which is carried by the edge of the frame, the detector 12 then being mounted on the edge of the frame and operating in a similar manner, mutatis mutandis, to that described here.
  • the detector 12 can also be installed on a frame, the fitting of which is carried by the edge of the frame, while the detector is mounted on the edge of the opening.
  • the detector 12 can also be installed on a frame, the fitting of which is carried by the edge of the opening, while the detector is mounted on the edge of the frame.
  • the detector 12 essentially comprises a housing 20, a bent rod 22, electronic means 24, visible to figures 2 to 5 , and at least one battery 30, or even two batteries 30 and 30 ', visible to the figures 2 to 4 .
  • the housing 20 is configured to be fixed to the edge 5, preferably by being received in a blind bore 7, or knockout, of the edge 5, visible on the figure 2 .
  • This song 5 is preferably the free edge of the sash 3 when the latter is open, this song facing the frame when the sash 3 is closed.
  • the bore 7 is made in a surface S5 of the edge, the surface S5 preferably being parallel to the axis X20 and to a transverse axis Y20 of the frame, and being turned in the direction of the edge 6.
  • the axis Y20 is perpendicular to the X20 and Z20 axes.
  • the bore 7 can allow access to a hollow area provided in the frame of the frame, or be a bore 7 in a solid frame.
  • the housing 20 is of generally parallelepipedal shape, being of elongated shape along the longitudinal axis X20.
  • the housing 20 is thin along the axis Y20, compared to the other dimensions.
  • the housing is thin along the axis Z20.
  • the housing 20 encloses the battery or batteries 30, 30 ', the electronic means 24 and part of the rod 22.
  • the housing 20 comprises two longitudinal ends 101 and 102.
  • the ends 101 and 102 are both crossed by the axis X20.
  • the end 101 is turned in a direction X51 along the axis X20, called “forward direction” while the end 102 is turned in a direction X52 along the axis X20, called “backward direction”, opposite to the direction X51.
  • the housing 20 forms a transverse wall 45, called the front wall or the outlet wall, which preferably has the shape of a rounded fillet, the shape being centered on an axis parallel to the axis Z20, to correspond to the shape of the bore 7.
  • the housing 20 comprises a transverse wall 46, or rear wall, similar in shape to the front wall 45.
  • the housing 20 comprises longitudinal walls connecting the walls 45 and 46 and extending parallel to the axis X20, including a front wall 41, a bottom wall 42, a side wall 43 and a side wall 44.
  • the walls 41 and 42 are parallel to the X20 and Y20 axes and are facing away from each other.
  • the walls 43 and 44 are parallel to the axes X20 and Z20 and are turned away from each other.
  • the walls 43 and 44 interconnect the walls 41 and 42.
  • the walls 41, 42, 43, 44, 45 and 46 constitute an essentially closed envelope for the detector 12.
  • the walls 42, 43, 44 , 45 and 46 are formed by a single piece integral with the housing 20, while the wall 41 constitutes an attached part or sub-assembly, for example snapped or screwed onto the rest of the housing 20.
  • the front wall 41 is turned in the direction of the edge 6, that is to say away from the edge 5.
  • the housing 20 is partially received by the 'bore 7, in that the front wall 41 is left free, unlike the bottom wall 42 which is turned in the direction of the edge 5, in particular in the direction of the bottom of the bore 7.
  • the housing 20 is partially received by the bore 7 so as to partially protrude therefrom along the axis Z20.
  • the fillet shape of the ends 101 and 102 corresponds to the shape of the bore 7, the ends of which along the axis X20 are generally rounded interior fillet.
  • the housing 20 comprises fixing means.
  • the fixing means comprise two fixing lugs 27 and 27 ', each carried by one of the ends 101 and 102.
  • Each lug 27 and 27' advantageously extends along a plane P27 shown on the figure. figure 2 , parallel to the X20 and Y20 axes.
  • Plane P27 can be qualified as an “ear plane”.
  • Each ear 27 and 27 ' can be brought to bear against the surface S5 of the edge 5, the ears 27 and 27' being advantageously coplanar.
  • the plane P27 is advantageously parallel to the front wall 41.
  • the lug 27 projects from the wall 45 in the direction X51 along the axis X20.
  • the lug 27 protrudes from the wall 46 in the direction X52 along the axis X20.
  • Each ear 27 and 27 ' is fixed using a screw, not shown, or any similar fixing means, implanted in the surface S5 of the edge 5.
  • a single ear 27 is fixed using one screw, the other ear serves as a shim under the surface S5 of the edge 5.
  • the detector must then be installed first by housing the lug 27 'under the surface S5 of the edge, at the end of the bore 7, then by fixing the lug 27 by the screw on the edge 5.
  • the ears 27 and 27 ' here come integral with the walls 45 and 46 respectively, but one could provide fixing means attached to the housing 20, such as jumpers.
  • the detector 12 has a fixing clip separate from the housing 20, which is fixed to the outer surface of the edge 5 at the end of the bore 7 by means of a screw or other fixing means. similar.
  • the housing 20 is fixed to the edge 5 by means of the fixing clamp, for example by snapping the lug 27 on said clamp.
  • a movable drawer 61 receives the battery 30, or the batteries 30 and 30 '.
  • the movable drawer 61 is movable relative to the housing 20 in translation parallel to the axis Z20, that is to say transversely to the longitudinal axis X20.
  • the drawer 61 slides through an opening 63 for access to the batteries 30, 30 ', this opening 63 being formed in the front wall 41 so as to be accessible by the user even when the detector 12 is mounted on the song 5.
  • the translation of the drawer 61 takes place between a closed position, shown in the figures, in which the drawer 61 is inside the housing 20, and an open position, in which the drawer 61 protrudes from the wall of the drawer. facade 41 along the axis Z20, so as to be at least partially outside the housing 20 to provide access to the batteries 30, 30 '.
  • the drawer 61 In operation of the detector 12, the drawer 61 is in the closed position so that the batteries 30 and 30 'supply the electronic means 24 with electrical energy.
  • the electronic means 24 are advantageously no longer supplied by the batteries 30 and 30 '. Thanks to the drawer 61, access to the batteries 30 can be effected without removing the detector 12 from the edge 5, when the opening 3 is itself in the open position.
  • the drawer 61 projects out of the housing 20 through the access opening 63, making the batteries 30 and 30 'accessible from outside the housing 20, at the same time. vicinity of the wall 41.
  • Each battery 30 and 30 ' is for example of cylindrical shape with a circular base.
  • each battery 30 and 30 ' is an AAA battery.
  • Each battery 30 and 30 ' is fixed to the drawer 61.
  • each battery is arranged longitudinally, that is to say that each battery defines a longitudinal axis which is parallel to the axis X20. If several batteries are provided for the detector 12, these batteries are preferably arranged side by side, being distributed parallel to the axis Z20. Preferably, all the batteries of the detector 12 are arranged in the same plane parallel to the axes X20 and Z20, for reasons of compactness of the housing 20 in the direction of the axis Y20.
  • the drawer 61 comprises a facade 62, that is to say a wall, which, in the closed position, closes the access opening 63.
  • the facade 62 In the closed position of the drawer 61, the facade 62 is coplanar with the wall 41. In the open position, the facade 62 is moved away from the wall 41 towards the outside of the housing 20, along the axis Z20, so as not to block the opening 63 any longer.
  • the battery or batteries 30, 30 'and the facade 62 are aligned along the axis Z20.
  • the drawer 61 also comprises, respectively for each battery 30 and 30 ', receiving supports 64 and 64' integral with the facade 62.
  • the batteries 30 and 30 ' are fixed on their respective support 64 and 64'.
  • each support 64 and 64' is for example in the form of a cradle in the form of a half-tube, matching the shape of the battery concerned, which is received within said cradle.
  • the supports 64 and 64 ' are entirely disposed inside the housing 20.
  • the supports 64 and 64' are positioned outside the housing 20, thus giving access to the 30 and 30 'batteries for their replacement.
  • the drawer 61 is particularly advantageous when a plurality of batteries are provided, as is the case in the example illustrated.
  • the drawer 61 makes it easy to reach the battery 30 'when the drawer 61 is in the open position, even if the battery 30' is positioned, in operation of the detector 12, near the bottom wall 42, opposite to the opening. access 63.
  • the housing 20 can simply provide that the battery is received in a fixed housing belonging to the housing 20, at the same location as the drawer 61, the housing opening onto the outside of the housing. housing 20 by the access opening 63, and being closed by a removable wall of the housing, at the same location as the front 62.
  • the drawer 61 is positioned in the housing 20 at a central position between the longitudinal ends 101 and 102, or at least at a distance from the ends 101 and 102.
  • the housing 20 and the drawer 61 define a front housing 21, inside the housing 20.
  • the front housing 21 is delimited, along the axis Z20, by the front walls 41 and bottom 42.
  • the front housing 21 is delimited, along the axis Y20, by the side walls 43 and 44.
  • the front housing 21 is delimited by the drawer 61 and by the end 101, namely the front wall 45.
  • the front housing 21 is closed by a front cover 121 attached to the housing 20, and forming part of the front wall 41.
  • this cover 121 is clipped to the housing 20.
  • the front cover 121 can alternatively be fixed by screwing on a side wall 43 or 44 of the housing 20.
  • the front cover 121 and the front face 62 are preferably coplanar.
  • the front cover 121 advantageously comprises a screwing shank 122, extending in the direction of the access opening 63, that is to say of the drawer 61.
  • the shank 122 is parallel to the axis Z20.
  • the drawer 61 can be fixed in the closed position by screwing a screw 123 into the screw barrel 122 of the cover 121.
  • the screw allowing the fixing of the drawer 61 is a captive type screw, which remains attached to the drawer. 61 when unscrewed. This captive screw also makes it possible to form a gripping means for extracting the drawer 61 from its closed position.
  • the housing 20 and the drawer 61 define a longitudinal passage 25, inside the housing 20.
  • the longitudinal passage 25 is delimited, along the axis Z20, by the bottom wall 42 and by the drawer 61, in particular by the support 64 '.
  • the longitudinal passage 25 is bordered, transversely with respect to the longitudinal axis X20, by the battery 30 'and by the bottom wall 42.
  • the longitudinal passage 25 is delimited, along the axis Y20, by the side walls 43 and 44.
  • the housing 20 and the drawer 61 define a rear housing 26, inside the housing 20.
  • the rear housing 26 is delimited, along the axis Z20, by the front walls 41 and bottom 42.
  • the rear housing 26 is delimited, along the axis Y20, by the side walls 43 and 44.
  • the rear housing 26 is delimited by the drawer 61 and by the end 102, namely the rear wall 46.
  • the longitudinal passage 25 connects the front housing 21 to the rear housing 26.
  • the rear housing 26 is closed by a rear cover 124 attached to the housing 20 and forming part of the front wall 41.
  • this rear cover 124 is clipped to the housing 20. It can alternatively be fixed by screwing to a side wall 43 or 44 of the housing 20.
  • the cover 124 and the front 62 are advantageously coplanar. .
  • the rod 22 comprises a feeler part 51, a rear part 52 and an intermediate part 53.
  • the bent rod 22 has an S or zigzag shape, being bent in two places, in this case at the junction between the parts 51 and 53 and at the junction between the parts 52 and 53.
  • the bent rod 22 is movable in rectilinear translation relative to the housing 20 along the axis X20, between a deployed position in the direction X51, visible on the figure 2 , and a retracted position in the X52 direction, visible on the figure 3 .
  • the feeler part 51 constitutes a front end of the rod 22, that is to say that the part 51 forms the end of the rod 22 in the direction X51 along the axis X20.
  • the feeler part 51 is coaxial or parallel with the axis X20.
  • the feeler part 51 advantageously comprises a shape adapted to cooperate with the fitting 112, in particular with the end 113 of the fitting 112.
  • the feeler part 51 may comprise an extra thickness and / or a hollow shape at its cooperating end. with the fitting 112, so that the fitting 112 cannot move under or over the feeler part 51.
  • the feeler part 51 passes through the end 101, in particular through a notch 47 formed through the wall 45.
  • This notch 47 may be produced by a recess formed in the wall 45 of the housing 20.
  • the notch 47 ' which has the same function as the notch 47, is delimited in part by a cutout in the wall 45 of the housing 20 and in part by the front cover 121.
  • the feeler part 51 extends partly outside the housing 20 and partly inside the housing 20, in the front housing 21.
  • the lug 27 is positioned between the feeler part 51 and the surface S5 when the housing 20 is fixed on the edge 5.
  • a front end of the feeler part 51 of the rod 22 extends along and slightly away from the surface S5.
  • the feeler part 51 extends near and along the wall 41, or even against the wall 41. At the very least, the feeler part 51 is closer to the wall 41 than to the wall. 42.
  • the elbows of the rod are located inside the housing 20.
  • the rear part 52 of the rod 22 constitutes a rear end of the rod 22, that is to say that the part 52 forms the end of the rod 22 in the direction X52 along the axis X20.
  • the rear part 52 is parallel with the feeler part 51, being transversely offset with respect to the feeler part 51. In other words, the rear part 52 is offset along the axis Z20 with respect to the feeler part 51.
  • the rear part 52 extends entirely inside the housing 20, near and along the wall 42, or even against the wall 42, that is to say transversely on the opposite side of the feeler part 51. For at least, the rear part 52 is closer to the wall 42 than to the wall 41.
  • the rear part 52 of the rod 22 extends into the front housing 21, where the part rear 52 is attached to the intermediate part 53, extends in the longitudinal passage 25 passing right through it, and ends in the rear housing 26.
  • the rear part 52 of the rod 22 therefore runs alongside batteries 30 and 30 '.
  • the bent shape of the rod 22 allows it to bypass the batteries 30 and 30 'to reach the rear housing 26. This particular arrangement ensures that the detector 12 is particularly compact, even if the batteries 30 and 30' are in a central position in the housing. housing 20 and are accessible from the front wall 41.
  • the intermediate part 53 connects the feeler part 51 to the rear part 52, in particular a rear end of the feeler part 51 to a front end of the rear part 52.
  • the intermediate part 53 is parallel to the axis Z20.
  • the intermediate part 53 extends transversely, here being perpendicular to the parts 51 and 52.
  • the intermediate part 53 extends entirely inside the housing. 20, in the front housing 21.
  • the part 53 is therefore arranged in the housing 20 between the end 101 and the batteries 30, 30 ', regardless of the position of the rod 22 relative to the housing 20. Only the feeler part 51 comes out of the housing, it is therefore advantageously well guided through the notch 47.
  • the housing 20 and / or elements attached to the housing 20 advantageously guide the translation of the rod 22 relative to the housing 20 and limit its translation between the deployed and retracted positions.
  • the guiding in translation is for example obtained by longitudinal sliding of the feeler part 51 of the rod 22 through the notch 47 and by longitudinal sliding of the rear part 52 through an eyelet 60, arranged inside the housing 20, for example in the rear housing 26.
  • the eyelet 60 is for example carried by the bottom wall 42.
  • the detector 12 further comprises a spring 70.
  • the spring 70 is advantageously disposed entirely inside the housing 20.
  • the spring 70 is a helical axial spring, which is coaxial and surrounds the rear part 52 of the housing. rod 22, for reasons of compactness.
  • the spring 70 imparts a spring force on the rod 22 relative to the housing 20, tending to move the rod 22, ie in the direction X51 along the axis X20.
  • the term “spring force” is understood to mean an elastic return force generated following an elastic deformation of the spring 70, to return to its rest position.
  • the spring 70 is for example a compression spring, which is resting in the X52 direction against the housing 20, for example against the eyelet 60, and which rests in the X51 direction against the rear part 52 of the rod 22, for example against an axial shoulder 23 belonging to the rear part 52 of the rod 22.
  • the spring 70 is interposed longitudinally between the eyelet 60 and the axial shoulder 23 of the rod 22.
  • the spring 70 is therefore received partly in the passage 25 and partly in the rear housing 26. More generally, the spring 70 bears on the housing 20 via the eyelet 60 to impart the return force to the rod 22.
  • the rod 22 is elastically pushed by the spring 70 towards the deployed position. To bring the rod 22 to the retracted position, that is to say translate the rod 22 towards the inside of the housing 20 in the direction X52, it is necessary to push the rod 22 against the spring force. .
  • the feeler part 51 receives the end 113 of the fitting 112 resting against it along the longitudinal axis X20, this support being directed in only one of the two directions X51 and X52, for them. two directions X51 and X52 of translation of the fitting 112.
  • the rod 22 is held in abutment in the direction X51 against the end 113 of the fitting 112 under the action of the spring force imparted by the spring 70. Thanks to the spring 70, it is not necessary to provide for attaching the rod 22 to the fitting 112.
  • the fitting 112 and the feeler part 51 bear against a front end of the feeler part 51, outside the housing 20
  • the feeler part 51 being maintained in contact with the fitting 112, the rod 22 and the fitting 112 are integral in translation with respect to the edge 5 and to the housing 20.
  • the position of the rod 22 with respect to the housing 20 reflects the position of the fitting 112 with respect to the edge 5.
  • the box 20 é both fixed to the edge 5, the fitting 112, translating along the axis X20 relative to the edge 5, drives the rod 22 in translation relative to the housing 20 along the axis X20 via the feeler part 51.
  • the feeler part 51 is attached or fixed to the fitting 112 so that the position of the rod 22 reflects the position of the fitting 112.
  • the spring 70 is not necessary.
  • the feeler part 51 is advantageously designed to receive a mechanical action from the fitting 112, that is to say a force transmitted by contact of the fitting 112 against the feeler part 51, or by any other means. , so that the fitting 112 and the rod 22 are integral in their movement along the axis X20.
  • the position of the rod 22 thus reflects the position of the fitting 112.
  • the electronic means 24 are fully received inside the housing 20.
  • the electronic means 24 are fully received in the rear housing 26.
  • the electronic means 24 comprise a position sensor system, including here a warning light 57, several sensors. 99 and an electronic analyzer 98, as well as an electronic transmitter 82.
  • the electronic means 24 advantageously comprise two electronic cards, namely a primary electronic card 80 and a secondary electronic card 81.
  • the primary electronic board 80 extends parallel to the axes X20 and Z20, being positioned along the side wall 44 of the housing 20, or even against the wall 44.
  • the card 80 is therefore perpendicular to the wall 41.
  • the card 80 is of the printed circuit type or "Printed Circuit Board", "PCB" in English.
  • the electronic card 80 is fixed inside the housing 20 while being fully received in the rear housing 26. Along the axis Y20, the card 80 is disposed between the rear part 52 of the rod 22 and the side wall 44 of the housing. 20.
  • the primary card 80 serves both as a mechanical support for some of the electronic means 24, in particular for the analyzer 98 and the sensors 99, while comprising an electronic circuit ensuring the electrical connections between these various electronic means.
  • the secondary electronic card 81 extends parallel to the axes X20 and Y20, being positioned along the front wall 41, or even against the wall 41.
  • the card 81 is of the printed circuit type.
  • the card 81 is fixed inside the housing 20 while being fully received in the rear housing 26.
  • the secondary card 81 serves both as a mechanical support for some of the electronic means 24, in particular for the transmitter 82 or part of the device. transmitter 82, while comprising an electronic circuit ensuring the electrical connections between these various electronic means.
  • Cards 80 and 81 are electronically interconnected. For this, provision can be made for the cards 80 and 81 to form a single folded electronic card, as shown in the figure. figure 5 . Alternatively, the cards 80 and 81 are separate and interconnected by an appropriate electronic connector.
  • the electronic means 24 are supplied with electrical energy by the batteries 30 and 30 'when the drawer 61 is in the closed position.
  • the drawer 61 is advantageously provided with a means for connecting the batteries 30, including for example electrical contact terminals which are in contact respectively with the battery terminals 30 and 30 ', as well as one or more connectors electrically connecting the electrical contact terminals to the cards 80 and 81.
  • a connector 128 is provided, which is fixed to a rear wall 130 of the drawer 61, delimiting the end of the receiving support 64 housing the battery 30.
  • the connector 128 comprises a fixing part 132.
  • the attachment portion 132 comprises two legs, arranged to form an inverted U-shaped bridge. The two legs each extending parallel to, and on either side of, the rear wall 130.
  • the fixing part 132 straddles said rear wall 130.
  • the fixing part 132 in particular its leg located inner side of the support 64, comes in electrical contact with the terminal of the battery 30 which is turned in the X52 direction.
  • the connector 128 also includes a contact tab 133, which is in the form of a flexible strip.
  • the contact tab 133 includes a first end, through which the first contact tab 133 is attached to the fixing part 132, in particular via the leg which extends outside the holder. 64.
  • the first contact tab 133 also includes a first free end.
  • a connector 128 ' is advantageously provided, similar or identical to the connector 128, which is mounted on the rear wall 130 of the drawer 61, but at the level of the receiving support 64', to be in electrical contact with the battery 30 'which is oriented. in the X52 direction, this connector 128 ′ comprising in particular a contact tab 133.
  • a third connector 129 electrically connecting together the terminals of the batteries 30 and 30 'which are oriented in the direction X51.
  • the legs 133 have a rest position, in which they are in an inclined position, that is to say oblique, relative to the wall 130 of the drawer 61. In this rest position, the respective free end of the legs 133 is moved away from the wall 130 in the X52 direction.
  • the legs 133 also have an elastically deformed position shown on the figures 2 and 3 , wherein the respective free end of the tabs 133 is brought closer to the wall 130 in the X51 direction. In the elastically deformed position, the tabs 133 are less inclined relative to the wall 130. By elasticity, the tabs 133 tend to return to the rest position when they are placed in the elastically deformed position. In other words, when they are in the deformed position, the tabs 133 apply, in reaction, a force elastic in direction X52. Thus, the tabs 133 form an elastic lever for electrical contact.
  • the electronic card 80 has a front edge 85, parallel to the Z20 axis.
  • the tabs 133 come into electrical contact with the front edge 85, being held mechanically by the front edge 85 in their elastically deformed position.
  • the front edge 85 comprises two cutouts 86, corresponding respectively to the locations of the tabs 133 when the drawer 61 is in the closed position.
  • the cutouts 86 receive the tabs 133 when the drawer 61 is in the closed position and guide the deformation of the tabs 133 between the rest position and the elastically deformed position, when the drawer 61 moves between the open position and the closed position.
  • the tabs 133 apply their elastic force against the front edge 85 of the card 80, in particular in the hollow of the cutouts 86, in the X52 direction, which ensures good electrical contact.
  • the card 80 comprises, at the front edge 85, electrical tracks through which the electronic means 24 are powered by the batteries 30 and 30 '. These electrical tracks face the tabs 133 when the drawer 61 is in the closed position. In particular, these electrical tracks open into the cutouts 86. In the closed position of the drawer 61, the tabs 133 are in electrical contact with these electrical tracks, which have an electrical contact function.
  • the electrical connection of the batteries 30 and 30 ' is therefore ensured by the simple positioning of the drawer 61 in the closed position, thanks to the elastic lever properties of each connector 128 and 128'. On the contrary, when the drawer 61 is in the open or partially open position, the electrical connection between the tabs 133 and the card 80 is systematically interrupted.
  • the indicator 57 if provided, is carried by the rear part of the rod 22. Preferably, for any position of the rod 22, the indicator 57 is inside the rear housing 26.
  • the translational movement of the rod 22. indicator 57 relative to the housing 20 therefore reflects that of the rod 22 and the fitting 112, when the housing 20 is fixed to the edge 5 and the fitting 112 actuates the rod 22.
  • the indicator 57 is intended to allow the detection of the position of the rod 22 over several ranges of its stroke. Several respective sensors 99 are used.
  • Each sensor 99 is advantageously an electronic component which is soldered directly to the card 80.
  • the sensors 99 are advantageously arranged by being distributed along an axis parallel to the axis X20, close to the travel of the indicator 57.
  • Each sensor 99 is a transducer which converts the position abscissa of the rod 22 along the axis X20 in an electrical quantity which can be used by the electronic means 24 of the detector 12, in particular by the analyzer 98.
  • each sensor 99 advantageously detects the indicator 57 when this is located in the detection zone of a sensor 99.
  • the indicator 57 is in the form of a magnet while each sensor 99 constitutes an electromagnetic field sensor, for example a sensor. Hall effect or a magneto-resistive sensor, to detect the electromagnetic field generated by the indicator 57 without contact.
  • Each sensor 99 converts the electromagnetic field of the indicator 57 into the aforementioned electrical signal.
  • the position of the rod 22 could be detected by one or more sensors implementing a technology other than electromagnetic detection, for example optical sensors.
  • the electronic analyzer 98 is an electronic system, comprising for example a processor implementing a computer code stored in a memory.
  • Analyzer 98 takes the form of one or more electronic components mounted on board 80 and electronically interconnected.
  • the analyzer 98 is designed to determine the longitudinal position of the fitting 112, on the basis of the values taken by the respective states of the sensors 99.
  • the sensors 99 are electronically connected to the analyzer 98 via the circuits of the card 80.
  • the analyzer 98 belonging to the sensor system, thus generates information on the position of the rod 22 relative to the housing 20.
  • the transmitter 82 is an electronic system, comprising for example a processor implementing a computer code stored in a memory. Transmitter 82 takes the form of one or more electronically interconnected electronic components. At least part of the electronic components of the transmitter 82 is mounted on the card 81. It is also possible to provide that a part of the electronic components of the transmitter 82 is mounted on the card 80.
  • the transmitter 82 comprises for example a wireless transmitter, such as a radio transmitter comprising an antenna, designed to transmit the position information of the rod 22, supplied by the analyzer 98 of the sensor system, to a third party device.
  • the antenna is carried by the card 81 and extends parallel to the axis X20.
  • the third-party device may include a display, an interface, or any similar means, aimed at informing the user of the current functional position of the fitting 112, according to the position information.
  • the fact of providing the antenna of the transmitter 82 on the card 81 allows the transmitter 82 to be insensitive to the electromagnetic disturbances that could generate the position sensor system, in particular if the indicator 57 is a magnet and if the sensors 99 are electromagnetic field sensors.
  • the card 81 when the housing 20 is fixed to the edge 5, the card 81 is found positioned in the plane or above the plane defined by the surface S5 of the edge 5, so the transmitter 82 and its antenna are surrounded by the materials of the frame as little as possible, which significantly improves wireless data transmission by radio.
  • the card 81 to be positioned in this way, provision is made advantageously for the card 81 to be disposed, along the axis Z20, between the front wall 41 and the fixing lugs 27, 27 '.
  • the frame 1 comprises parts made of aluminum, or made of other metallic materials.
  • the autonomy of the detector 12 is thus improved, since it is possible to choose a low-power transmitter 82, the consumption of electrical energy from the batteries 30, 30 'of which is reduced.
  • the electronic means 24 comprise a programming button 83 of the detector, which is preferably carried by the secondary electronic card 81 so as to be able to be actuated by a user from the front wall 41 outside the housing 20, without dismantling the housing. 20.
  • the front wall 41 is elastically deformable, so that the user actuates the button 83 through the front wall 41 by pressing on the front wall 41.
  • the button 83 is electronically connected. to other electronic means 24.
  • An action on the button 83 allows the user to act on the operation of the detector 12, for example by having an on / off, reset, or synchronization function of the transmitter 82 with the third-party device.
  • more programming buttons can be provided in arrangements similar to the button 83, in order to provide different functions.
  • the electronic means 24 comprise a magnetometer and / or an accelerometer.
  • the accelerometer and / or the magnetometer are intended to detect a movement of the leaf 3 between the closed position and the open position, as well as to identify any vibrations to which the position detector 12 is subjected.
  • the accelerometer and / or the magnetometer are used in particular to wake up part of the electronic means, in particular the sensors 99, the electronic analyzer 98 and / or the electronic transmitter 82.
  • the accelerometer and / or the magnetometer are carried in particular by the primary electronic card 80 or the secondary electronic card 82.
  • the rod 22 is therefore protected from the outside, while the housing 20 embeds all the functions of the detector 12, making the latter as autonomous as possible. Even if it is possible, there is no need to wire the detector 12 to an external power source or to a third party device, which considerably facilitates the installation and integration of the detector 12 into the system. frame 1.
  • the battery or batteries 30, 30 'are positioned between the position sensor system of the electronic means 24 and the intermediate part 53 of the rod 22, fully received in the front housing 21.
  • the batteries 30, 30 'are positioned between, on the one hand, the intermediate part 53 and, on the other hand, the indicator 57 carried by the rear part of the rod 22, the sensors 99, the electronic analyzer 98 and the electronic transmitter 82.
  • a second embodiment of the detector 12 is shown in figures 7 to 10 .
  • elements similar to those of the first embodiment of figures 1 to 6 have the same references and operate in the same way.
  • the differences between the first and second embodiments are mainly described.
  • a feeler tip 200 is mounted on the feeler end 51 of the bent rod 22.
  • This tip has a cavity, not visible in the figures, which is complementary to the feeler end 51 and which fits onto the feeler end.
  • the end piece 200 is therefore fixed to the feeler end 51 by assembly.
  • the feeler tip 200 has a bearing face 202 which is perpendicular to the axis X20.
  • the end piece 200 is positioned between the feeler end 51 and the fitting 112 of the leaf 3, and the end 113 of the fitting bears against the end piece 200 by the 'intermediary of the bearing face of the nozzle.
  • the fitting 112 drives the bent rod 22 in translation relative to the housing 20 along the axis X20 by means of the end piece 200.
  • a thickness of the bearing face 202 is greater than a thickness of the feeler end 51. This makes it possible to keep the end of the fitting resting against the end piece even in a configuration where the fitting and the safety edge are misaligned, to reduce the risk of the fitting moving under or over the safety edge 51.
  • the presence of the end piece 200 therefore makes it possible to make the operation of the detector 12 more reliable by ensuring better transmission of the movement of the fitting 112 to the rod 22 of the detector.
  • the presence of the end piece 200 is particularly advantageous in the case where the fitting 112 is a flat rod, for example for a sliding frame.
  • the detector 12 comprises a tab 300 attached to the housing 20.
  • the tab 300 is positioned on the front wall 45 of the housing 20 and extends from this wall, away from the wall, towards the exterior of the housing. It is positioned under the fixing lug 27, that is to say that, along the axis Z20, it is positioned between the fixing lug and the bottom wall 42.
  • the tab 300 comprises two legs 302, mutually parallel, which extend from the front wall 45 of the housing parallel to the plane formed by the axes X20 and Z20.
  • Each leg 302 has a rising portion 304 and an intermediate portion 306, the rising portion extending from the housing 20 to the intermediate portion.
  • the rising part 304 extends obliquely from its end attached to the front wall 45 of the housing 20 towards the intermediate part 306 while converging towards the plane P27. In other words, along the axis Z20, the end attached to the front wall 45 is further from the fixing lug 27 than the end attached to the intermediate part.
  • Each leg 302 also comprises a descending part 308, which extends from the intermediate part away from the housing obliquely, away from the plane P27, that is to say that along the axis Z20 , the end of the descending part 308 attached to the intermediate part 306 is closer to the fixing lug 27 than the second end of the descending part 308.
  • a height H300 is defined as being the smallest distance between the plane P27 and the tab 300, measured along the axis Z20. Given the geometry of the legs 302, the height H300 is measured at the level of the intermediate part 306 of each leg, which is the part closest to the plane P27.
  • the ends of the descending parts of two legs 302 are connected by a reinforcement 310, which extends parallel to the axis Y20, so that the legs 302 form reinforcing ribs.
  • the tab 300 defines an opening 312.
  • the geometry of the tab 300 gives it elasticity along the Z20 axis, that is to say that it is flexible so that the position along the Z20 axis of the intermediate part 306 of each leg 302 can vary when 'a force directed along the axis Z20 is exerted on the legs.
  • the height H300 can vary if a force is exerted on the lug 300.
  • the clamp 300 makes it possible to fix the housing 20 to the edge 5, in cooperation with the ears 27 and 27 '.
  • the edge 5 is a wall perpendicular to the axis Z20 of thickness H5, along the axis Z20, greater than the height H300.
  • the tab 300 When the housing 20 is fixed to the edge 5, the tab 300 is positioned under the edge 5, at the end of the bore 7, and the lug 27 is positioned on the edge 5. Thus, the tab 300 and the lug 27 are arranged on each side of the edge 5.
  • the height H5 being greater than the height H300, the edge 5 exerts a force on the tab 300, which leads to the deformation of the legs 302. In practice, this force leads to the tab being separated. 300 of the edge 5 and of the ear 27 in the direction of the axis Z20, until the height between the plane P27 and the leg 300 is equal to H5.
  • this force allows the housing 20 to be held in position on the edge 5 at the level of the ear 27 without requiring the use of a screw, or any other similar fixing means, because the edge 5 is clamped between the ear. 27 and the clamp 300. Then, the ear 27 'is fixed to the edge 5 by a screw, or any other similar fixing means.
  • This method of pinching fixing is advantageous because it facilitates the fixing of the case on the side of the ear 27 and does not require the use of a screw.
  • the box 20 adapts to openings whose edge has a variable thickness, that is to say that the box 20 can be fixed on edges of thickness. H5 different, the tab 300 deforming according to the thickness of the edge.
  • the opening 3 may include one or more ribs 320 which protrude from a main face of the edge 5 towards the interior of the opening 3 along the axis Z20.
  • the ribs are formed on a face of the edge opposite to that which receives the housing 20.
  • an opening 3 ′ comprising a rib 320 is shown on the left. figure 9 and a 3 "sash comprising two ribs 320 is shown on figure 10 .
  • These ribs 320 make it possible, for example, to increase the rigidity of the edge 5.
  • the tab 300 is configured so that these ribs are located in the opening 312, so that the ribs 320 do not come into contact with the tab 300.
  • the opening 312 therefore allows the mounting of the detector 12 on the edge 5 despite the presence of ribs 320 on the opening 3.
  • the spacing of the legs 302 along the Y20 axis and the position of the reinforcement 310 along the Z20 axis, that is to say at the point furthest from the plane P27, allow the tab 300 to adapt to a wide variety of edge configurations.
  • the tab 300 is integral with the wall 45 of the housing 20, but one could alternatively provide a tab 300 independent of the housing 20, fixed to the wall 45 by any suitable fixing means, for example by screwing, gluing or welding.
  • the tab 300 does not include a reinforcement 310, that is to say that the two legs 203 are separated over their entire length.
  • the tab 300 consists of a single leg.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Burglar Alarm Systems (AREA)
  • Battery Mounting, Suspending (AREA)
  • Measurement Of Length, Angles, Or The Like Using Electric Or Magnetic Means (AREA)
EP20205352.6A 2019-11-04 2020-11-03 Positionsdetektor eines beweglichen beschlags eines fenster- oder türrahmens Active EP3816379B1 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
FR1912343A FR3102787B1 (fr) 2019-11-04 2019-11-04 Détecteur de position d’une ferrure mobile d’une huisserie

Publications (2)

Publication Number Publication Date
EP3816379A1 true EP3816379A1 (de) 2021-05-05
EP3816379B1 EP3816379B1 (de) 2023-03-29

Family

ID=69743352

Family Applications (1)

Application Number Title Priority Date Filing Date
EP20205352.6A Active EP3816379B1 (de) 2019-11-04 2020-11-03 Positionsdetektor eines beweglichen beschlags eines fenster- oder türrahmens

Country Status (3)

Country Link
EP (1) EP3816379B1 (de)
ES (1) ES2942913T3 (de)
FR (1) FR3102787B1 (de)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP4130413A1 (de) * 2021-08-05 2023-02-08 Somfy Activites SA Verlängerungsvorrichtung für eine tür-/fensterzarge und detektionssystem

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE4444839C1 (de) 1994-12-16 1996-07-18 Siegfried Poniatowski Vorrichtung zur Überwachung des Fenster-Verschlußzustands eines Öffnungs-Abdeckelements
DE10059582A1 (de) * 2000-11-30 2002-06-13 Roto Frank Ag Überwachungseinrichtung für ein Fenster, eine Tür oder dergleichen
DE202012007916U1 (de) * 2012-08-21 2012-10-16 Bonnel Technologie Gmbh Sicherungs- und/oder Betätigungseinrichtung für eine Tür, ein Fenster oder dergleichen

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE4444839C1 (de) 1994-12-16 1996-07-18 Siegfried Poniatowski Vorrichtung zur Überwachung des Fenster-Verschlußzustands eines Öffnungs-Abdeckelements
DE10059582A1 (de) * 2000-11-30 2002-06-13 Roto Frank Ag Überwachungseinrichtung für ein Fenster, eine Tür oder dergleichen
DE202012007916U1 (de) * 2012-08-21 2012-10-16 Bonnel Technologie Gmbh Sicherungs- und/oder Betätigungseinrichtung für eine Tür, ein Fenster oder dergleichen

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP4130413A1 (de) * 2021-08-05 2023-02-08 Somfy Activites SA Verlängerungsvorrichtung für eine tür-/fensterzarge und detektionssystem
FR3126011A1 (fr) * 2021-08-05 2023-02-10 Somfy Activites Sa Dispositif de rallonge pour une huisserie et système de détection

Also Published As

Publication number Publication date
ES2942913T3 (es) 2023-06-07
FR3102787A1 (fr) 2021-05-07
EP3816379B1 (de) 2023-03-29
FR3102787B1 (fr) 2021-12-03

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