Classifications

• • E—FIXED CONSTRUCTIONS
  • E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
  • E05C—BOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
  • E05C9/00—Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing
  • E05C9/18—Details of fastening means or of fixed retaining means for the ends of bars
  • E05C9/1808—Keepers
• • E—FIXED CONSTRUCTIONS
  • E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
  • E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
  • E05B15/00—Other details of locks; Parts for engagement by bolts of fastening devices
  • E05B15/02—Striking-plates; Keepers; Bolt staples; Escutcheons
  • E05B15/0205—Striking-plates, keepers, staples
  • E05B15/022—Striking-plates, keepers, staples movable, resilient or yieldable

Definitions

• the present invention relates to a closing part for a driving rod fitting of a window, a door or the like.
• espagnolette fittings are used, on which locking elements are provided, which engage at least in closed, so abutting a frame, wings of the window or the door in an associated closing part.
• a drive rod of the espagnolette along its longitudinal extent (which usually corresponds to the course of the rebate between the wing and the frame) can be moved to thereby connected to the drive rod respective locking elements between different longitudinal positions to move.
• a locking element may for example be formed as a pin and cooperate with a respective associated closing part to secure the wing in response to the longitudinal position of the locking gelungselements on the frame.
• the said different longitudinal positions of the locking element thus differ not only in terms of their position, but also functionally insofar as the locking element in a certain longitudinal position (eg a locking position) the closed wing in cooperation with the closure member locks against opening and in another longitudinal position (eg, a rotary opening position or a Kippö Stamms ein) releases the closed wing for opening.
• a certain longitudinal position eg a locking position
• another longitudinal position eg, a rotary opening position or a Kippö Stamms sued
• an elongate receptacle formed along a longitudinal axis is provided on the respective closing part, which serves to receive an associated locking element of an espagnolette fitting displaceable in the direction of the longitudinal axis in different longitudinal positions.
• the elongated receptacle is therefore designed and arranged in particular so that the respective locking element in the receptacle between its various longitudinal positions is displaceable.
• the said longitudinal axis consequently corresponds essentially to the direction of the displaceability of the respective locking element.
• the longitudinal axis In the elongated receptacle into or out of the elongated receptacle beyond the locking element passes transversely to the longitudinal axis, ie in the longitudinal axis of the lateral, in particular substantially straight vertical, direction.
• Such lateral movement of the locking element takes place when the wing is closed or opened.
• the locking element can then be moved between its longitudinal positions. This displacement can be done for example by actuation of a handle which is connected via a drive rod with the locking element.
• the elongated receptacle basically permits a movement of the locking element along the longitudinal axis between its various longitudinal positions, it depends on the respectively assumed longitudinal position of the locking element, whether it can also be moved to open or close the wing transversely to the longitudinal axis. Because the function of the closing part is precisely to lock the locking element in certain locking longitudinal positions. in the elongated receptacle to prevent the wing of the window or door from opening.
• the elongate receptacle is bounded transversely to the longitudinal axis by at least one stop section, which blocks lateral movement of the locking element out of the elongate receptacle at least when the locking element is in a locking longitudinal position.
• the elongate receptacle may, for example, at one end of its longitudinal extension, have a U-shape or a similar shape which is bounded on three sides and open towards the fourth, the longitudinal axis passing through the open side and the opposite closed side.
• a locking element can then at least between a longitudinal position in which it is outside the U-shape and therefore is movable transversely to the longitudinal axis, and another longitudinal position in which it is located within the U-shape and through one of the legs of the U -Form is locked against movement transverse to the longitudinal axis, be slidable through the open side.
• This blocking leg of the U-shape then forms the aforementioned stop cut.
• the elongated receptacle does not need to be limited to other sides except through the abovementioned abutment section.
• a so-called minimally formed closing part can therefore essentially be replaced by a single stop section, e.g. a wall-like projection, be formed.
• the elongated image is then not physically limited over its entire length or on all sides. This shows that the elongated image is primarily functionally defined, namely that it is a region of the
• Closing part forms, within which a respective locking member associated locking element of a drive rod fitting in the direction of the longitudinal axis between different longitudinal position is displaceable.
• a closing part can have a plurality of stop sections, by means of which a respective locking element is locked in a plurality of different longitudinal positions against lateral movement out of the elongate receptacle.
• at least one passage section may be provided, which releases the locking element in a turn other longitudinal position for a lateral movement out of the elongated receptacle (and by the locking element, in fact, only ever reaches the elongated receptacle).
• a respective stop section or a respective passage section is provided on the closing part depends in particular on which side of a wing or frame the closing part is to be used and which opening types the window or the door should have.
• a locking member on the lower horizontal side must lock the locking member for both locking and tilting the sash, but releasing it for pivotal opening.
• a closing part on the upper horizontal or the band-distant vertical side locking the locking element only for locking in the locked position, but release for rotation opening and tilting.
• the locking element is thus displaceable in particular between a locking position, a rotational opening position and a tilt opening position.
• the stopper portions of the associated closing part are then arranged straight so that the locking element is locked or released according to the longitudinal position for a lateral movement accordingly.
• a locking element accommodated in the oblong receptacle is either released for movement transversely to the longitudinal axis, depending on its longitudinal position, or can not be moved at all.
• the respective Ver regulation element in a final longitudinal position, although it locks against a lateral leaving the elongated receptacle, but still allows at least limited lateral displacement of the locking element.
• This may be useful, for example, to allow a secured tilted position in which the window or door is only slightly tilted open a small gap, but in which the locking element is still held in the elongated receptacle of the closing part. By such a tilted position can be ventilated, for example, the window or the door is still, for example, secured against a break-open.
• a closing part with the features of claim 1 and in particular by the fact that the closing part comprises a base part and an adjusting part movably mounted thereon, wherein the elongate receptacle is formed in the adjusting part, wherein the stop section is formed on the adjusting part and wherein the adjustment member is displaceable relative to the base part transversely to the longitudinal axis between a basic position and an offset position in order to be able to displace the locking element laterally to a limited extent in a longitudinal position in which it is locked by the abutment portion.
• the closing part is not formed in one piece as usual, but comprises at least one base part and a separate adjusting part.
• the base part is in particular for fastening the closing part to the Window, the door or the like formed, including, for example, it may have holes or other openings or receptacles for fasteners.
• the adjusting part is movably mounted on the base part, which allows the adjusting part to be displaced between a basic position and an offset position. This displacement takes place transversely to the longitudinal axis, ie in the longitudinal direction of the lateral direction. This does not exclude that the displaceability also has other directional proportions.
• the adjustment part is laterally displaceable makes it possible to displace a locking element, which is actually located in a longitudinal position blocked by the abutment section, also in the lateral direction.
• displaceability of the locking element is limited.
• the locking element can be displaced together with the adjusting part, so that its displaceability on the one side can be limited by the basic position and on the other side by the offset position of the adjusting part.
• the closing part can be very similar in terms of its dimensions to conventional, in particular one-part, closing parts and can be used with the same locking elements of respective drive rod fittings.
• This has the advantage that, for example, to retrofit the function of a secured tilting position conventional locking parts in a simple manner by inventive
• Locking parts can be replaced. If the adjusting part of the closing part is in its basic position, the closing part may structurally even be formed substantially identical to a conventional closing part. Due to the two-part design with a displaceable adjusting part, however, the functional difference is achieved that, at least in a certain longitudinal position of the locking element, its mobility transversely to the longitudinal axis is not completely prevented but limitedly permitted.
• the stopper portion continues to block lateral movement of the locking member out of the elongated receptacle.
• the locking element can only be displaced laterally together with the elongate receptacle and the abutment section, so that the locking element does not leave the oblong receptacle.
• the lateral displacement of the locking element is limited.
• the wing of the window or the door can not be opened.
• An undercut may be formed on the elongate receptacle to prevent a locking element formed as a mushroom-headed pin from leaving the elongated receptacle in the axial direction relative to the peg.
• the stopper portion can also serve as a point of attack for the displacement of the adjustment of the basic position in the offset position.
• a displacement of the adjusting part from the basic position into the offset Position can then be effected, for example, by urging the locking element in the lateral direction against the stop section, as a result of which the adjusting part is then displaced from its basic position in the direction of the offset position. This can be done for example by pulling on the wing of the window, the door or the like.
• the espagnolette fitting may include a mechanism that moves the wing of the window or door slightly apart from an associated frame when secured (such as by turning a handle of the window or door to a certain position) Tilt position is set. This can be achieved, for example, by a force-controlled scissors.
• the oblong receptacle is formed in the adjustment part means, in particular, that the space which is provided for receiving the associated locking element in its different longitudinal positions is at least partially in the region of the adjustment part, that is approximately in the same plane, in which also the (area trained) adjustment part is arranged.
• this does not rule out in principle that the elongate receptacle is also partially formed in the base part.
• a further stop portion is formed on the base part.
• the further stop portion is therefore fixed (stationary) and is not offset when a displacement of the adjustment also.
• Such a further stop section can therefore serve, for example, to guard a locking position of the locking element in which a wing of the window or the door is closed when closed. should be locked and the locking element should therefore be locked against any displacement transversely to the longitudinal axis in the opening direction.
• said (mobile) abutment portion is provided at a first end of the elongated receptacle relative to the longitudinal axis
• the (stationary) further abutment portion is provided at a second end of the elongate receptacle opposite the first end.
• the stop sections are advantageously arranged corresponding to the position of different longitudinal positions of the associated locking element.
• the locking element may be displaceable approximately along the longitudinal axis between a locking position for locking a wing of the window or the door and a secured tilted position for enabling a secure tilting opening of the wing.
• the elongate receptacle formed in the closing part then extends along the path defined by this locking position and this tilting position, wherein the (mobile) stopper section is arranged in the region of the secured tilted position at one end of the extension and at the opposite other end of the extension of the ( stationary) further abutment portion is arranged in the region of the locking position of the locking element.
• the locking element can be provided between the locking position and the secured tilting position, for example a rotary opening position in which the locking element must be able to leave the elongated seat laterally in order to enable pivoting of the wing, and / or a tilt-open position the locking element (at least when the closure member is located on a side of the wing or the frame spaced from the tilting axis) must also be able to emerge laterally from the elongated receptacle. Therefore, according to an advantageous development, the elongate receptacle transversely to the longitudinal axis is further limited by at least one passage section which releases the locking element for lateral movement out of the elongated receptacle.
• the passage section is therefore precisely defined by the fact that no obstacle is formed in the region of the passage section which would block movement of the locking element laterally out of the oblong receptacle (or conversely laterally into the elongate receptacle).
• the passage section can thus be formed for example by an opening of an otherwise continuous structure.
• the passage section may also simply be a free space, in particular adjacent to an adjacent stop section.
• the passage section is formed in particular between the said (mobile) stop section and the (stationary) further stop section.
• Such an arrangement is then adapted in a suitable manner in particular to a sequence of longitudinal positions of the associated locking element from a locking position via a rotational opening position and / or a tilting opening position to a secured tilting position.
• the passage section is preferably formed on the adjusting part, since in the adjusting part and the elongated receptacle is formed.
• the elongated receptacle may be formed in regions in the base part, but also the passage portion may be partially formed in the base part. It is essential that in the region of the passage section neither the adjusting part nor the base part block a lateral movement of a respective locking element out of the elongate receptacle.
• the base part is disposed substantially in a first plane, and the adjustment part is arranged substantially in a second plane, the first and the second plane being parallel to said longitudinal axis and to the direction of displaceability of the adjustment part are aligned and adjacent to each other, so that a (lower, the wing or frame, on which the closing part is arranged, facing) flat side of the adjusting part bears against a (upper, of the wing or frame pioneering) flat side of the base part.
• the levels mentioned are not (infinitely thin) levels in the mathematical sense, but rather flat spatial areas that have a certain thickness.
• the base part and the adjusting part are preferably formed substantially flat.
• That the base part is arranged substantially in the first plane and the adjustment part is arranged substantially in the second plane, thus means that a planar extension of the base part or the adjusting part extends substantially within the first and the second plane. In this way, however, it is not excluded that certain sections of the base part or of the adjusting part extend out of the respective plane and possibly also into the respective other plane, as long as the (planar) basic structure, in particular a large part, of the respective part within the respective plane is arranged.
• the base part and the adjusting part have respective flat sides, with which they rest against each other.
• the contact surface of the two flat sides can therefore correspond exactly to an interface between the first and the second plane. Since the direction of the displaceability of the adjustment is aligned parallel to the planes, the adjustment is not moved out of the second plane at a displacement between its normal position and its offset position, but offset within the second plane.
• the base part and the adjustment part are therefore not moved perpendicular to the planes toward or away from each other. Rather, advantageously, said flat side of the adjusting part slides on said flat side of the base part, so that this results in a certain guidance of the adjusting part on the base part.
• a further stop section (for example the further stop section mentioned) is formed on the base part and extends into the second plane.
• the base part arranged substantially in the first plane thus projects into the second plane with this further stop section.
• the adjusting part is arranged with the elongated receptacle and the (mobile) abutment portion in the second plane and therefore the further abutment portion formed on the base part and thus stationary must also be at least partly also in the second plane, around the oblong one To limit recording transversely to the longitudinal axis.
• the (stationary) further stop section extends into the second plane, it can also interact with the adjusting part, for example in order to act as a stop for limiting the displaceability of the adjusting part.
• the base part may have at least one coupling element, which extends for the movable mounting of the adjusting part on the base part in the second plane and / or the adjusting part may have at least one coupling element, which is for movable mounting of the adjusting part on the base part extends to the first level.
• the base part may have at least one coupling element, which extends for the movable mounting of the adjusting part on the base part in the second plane and / or the adjusting part may have at least one coupling element, which is for movable mounting of the adjusting part on the base part extends to the first level.
• the base part has at least one coupling projection, in particular in the form of a pin
• the adjusting part has at least one coupling guide, in particular in the form of an oblong hole.
• just the other way around the base part at least one Koppellane- tion, in particular in the form of a slot, and may have the adjusting part at least one coupling projection, in particular in the form of a pin.
• the coupling projection may in particular be the aforementioned coupling element.
• the coupling projection and the coupling guide are preferably designed so that the coupling projection engages in the coupling guide or otherwise cooperates with the coupling guide, which is suitable for coupling the base part and the adjusting part with each other, in particular insoluble, and / or the displaceability of the adjusting part relative to the base part.
• the coupling projection is a pin which engages in a coupling guide formed as a slot.
• the coupling projection is a pin which engages in a coupling guide formed as a slot.
• By the length and the course of the slot appropriate Versetz- movement curves of the adjustment can be defined.
• two or more mutually corresponding pairs of a respective coupling projection and a respective coupling guide are provided on the closing part, so that the stability of the mounting of the adjusting part on the base part is increased.
• the adjusting part is displaceable obliquely to the longitudinal axis.
• the (not necessarily just) course of the displaceability of the adjustment part comprises a directional component in the direction of the longitudinal axis. The adjustment is thus at least not exclusively perpendicular to the longitudinal axis displaceable.
• the adjusting part also moves in the direction of the longitudinal axis when it moves from its basic position to the offset position, this also causes the elongate receptacle relative to a latching element received therein, which remains in its longitudinal position moves.
• one end of the elongated receptacle can be moved toward the locking element, so that the locking element is absorbed, so to speak, deeper into the elongate receptacle and is thereby secured particularly well in the elongated receptacle.
• the direction of displaceability of the adjusting part relative to the base part with said longitudinal axis is an angle of less than 90 °, in particular less than 60 °, preferably between 40 ° and 50 ° , more preferably 45 °.
• the adjustment can be offset in particular only at this angle, ie the displaceability has a straight course.
• An angle of 45 ° is particularly advantageous if the displacement of the adjusting member relative to the base part is effected as a result of a force exerted by the locking element and acting in the lateral direction.
• each equal to a parallel motion to the said longitudinal axis are derived.
• the (mobile) stop portion is provided at a longitudinal axis with respect to the first end of the elongated receptacle and the adjustment in a lateral displacement in the offset position in the direction of a first end opposite the second end of the elongated receptacle is offset.
• the displacement of the adjustment in this direction thus causes straight, that one of this (mobile) stopper locked locking element that does not change its position when moving the adjustment, further penetrates in the direction of said first end in the elongated recording and so very reliable is secured.
• said first end of the elongate receptacle can form a stop for the locking element remaining in its longitudinal position and thus limit the displaceability of the adjustment part.
• locking means are provided between the base part and the adjusting part, in particular mechanical and / or magnetic, in order to secure the adjusting part in the basic position and / or the offset position.
• locking means can be advantageously effected that initially a certain force threshold must be exceeded before the adjustment can be offset from its basic position and / or its offset position out.
• the locking means may contribute to the adjusting part reaching the basic position and / or the offset position particularly reliably, in that the adjusting part engages in the respective position, for example due to attractive or urging forces.
• Such locking means help to prevent incorrect operations or an undesirable closing of the wing, for example by wind pressure, and therefore increase the reliability of the operation of the closing part.
• Fig. 1 shows an embodiment of an inventive
• Closing part in a perspective view Closing part in a perspective view.
• FIG. 1 shows the embodiment shown in FIG. 1 together with an associated locking element, wherein the adjusting part of the closing part and the locking element are shown in different positions.
• 3A to 3C show by way of example a simplified further embodiment of a closing part together with an associated locking element, wherein the adjusting part of the closing part and the locking element are shown in different positions.
• the closing part 1 1 shown in FIG. 1 comprises an essentially planar base part 13 and an adjoining likewise essentially flat adjusting part 15.
• the base part 13 and the adjusting part 15 have an elongated structure which extends along a longitudinal axis L. , and a substantially identical outer contour along a respective circumferential narrow side 17, 17 ', so that the base part 13 and the adjusting part 15 are aligned in the basic position of the adjusting part 15 shown in FIG. 1 congruent to each other.
• the base part 13 is arranged substantially in a first (according to the orientation in Fig. 1 lower) plane, while the adjusting part 15 is arranged substantially in a plane parallel to the first plane second (upper) level.
• the two planes adjoin one another in the region of an interface 19 between an (upper) flat side of the base part 13 and a (lower) flat side of the adjusting part 15.
• the adjusting part 15 there is formed centrally an elongate receptacle 21 which is adapted to receive a locking element 23 associated with the closing part 11 (see FIGS. 2A to 2E) in the form of a mushroom-headed journal, the locking element 23 being located inside the elongate receptacle 21 different longitudinal positions can take that differ with respect to their position along the longitudinal axis L.
• the elongate receptacle 21 is designed essentially in the manner of a slot in the adjustment part 15.
• the elongated receptacle 21 is not circumferentially closed, but open to one side in a central area. In this central region, the elongated receptacle 21 is thus limited by a section through which the locking element 23 can be moved transversely to the longitudinal axis L into the elongated receptacle 21 or out of the elongated receptacle 21, if it is in a corresponding (middle) longitudinal position is located.
• the passage section 25 in the illustrated embodiment gives the locking element 23 in two different defined longitudinal positions (namely, a rotational opening position and a tilting opening position, cf. FIGS.
• the passage section 25 can at least functionally also be regarded as a double passage section 25 or as two directly consecutive passage sections 25.
• stop portions 27, 29 which limit the elongated receptacle 21 to the same side as the passage portion 25, but unlike the passage portion 25, a lateral movement of the locking member 23 from the elongated receptacle 21 out (in the direction of this page).
• the two stop sections 27, 29 are in relation to the longitudinal axis L opposite ends 31, 33 of the elongated receptacle 21 is arranged.
• the stopper portion 27 is formed on the adjustment member 15 in the region of the first end 31 of the elongated receptacle 21, whereas the further stopper portion 29 is formed on the base member 13 in the region of the second end 33 of the elongated receptacle 21.
• the further abutment portion 29 extends to the base member 13 of the rest of the base 13 largely comprehensive first level in the second plane into it. In this way, the further abutment portion 29 can laterally delimit the elongated receptacle 21 formed essentially in the adjustment part 15 (and thus in the second plane).
• the abutment sections 27, 29 have undercuts 35 towards the elongated receptacle 21.
• Corresponding undercuts are also formed on the opposite side of the elongate receptacle and at their boundaries in the longitudinal direction in the region of the two ends 31, 33.
• the trained as a mushroom pin locking element 23 engages behind because of its mushroom shape in longitudinal positions in which it is in the region of the first end 31 or the second end 33 of the elongated receptacle 21 and is locked by a respective stop portion 27, 29 against lateral movement, the adjacent undercuts 35 and is thus secured very reliable.
• the locking element 23 can then not leave the elongated receptacle 21 in an axial direction with respect to its spigot shape. As a result, the break-up security of the closing part 1 1 is increased.
• two parallel slots 37 are formed, which have a straight, aligned at an angle of 45 ° to the longitudinal axis L course have and extend over almost the entire width (transverse to the longitudinal axis L) of the adjusting part 15.
• the elongated holes 37 form coupling guides in which engage on the base part 13 formed as a pin 39 coupling projections.
• the pins 39 extend through the respective slot 37 in the adjustment part 15, so that they protrude (similar to the further stop portion 29 and as far) in the second plane.
• the end of a respective pin 39 spaced from the base part 13 has a mushroom-type diameter enlargement 41, by means of which the pin 39 is non-releasably coupled to the respective slot 37 in the manner of a rivet.
• the adjustment member 15 is movably mounted relative to the base member 13, namely along a course displaceable, which is defined by the interaction of the pin 39 with the slots 37.
• the adjusting part 15 is displaceable at an angle of 45 ° to the longitudinal axis L between the basic position shown in FIGS. 1 and 2A to 2D and the offset position shown in FIG. 2E.
• the adjustment member 15 is thus transversely displaceable to the longitudinal axis L, but it is always offset due to the obliquely to the longitudinal axis aligned slots 37 also parallel to the longitudinal axis L. Due to the angle of 45 °, the offset transversely and parallel to the longitudinal axis L is the same size.
• FIGS. 2A to 2E the embodiment shown in FIG. 1 is shown in several views perpendicular to the areal extent of the base part 13 and the adjusting part 15.
• the adjustment member 15 is in FIGS. 2A to 2D in its normal position, while it is offset in Fig. 2E relative to the base member 13 in its offset position.
• FIGS. 2A to 2E also differ from each other by the respective longitudinal position of the locking member 1 1 associated, received in the elongated receptacle 21 locking element 23, which as in aligned perpendicular to the plane of the pin, in particular mushroom pin is formed.
• the locking element 23 is part of an espagnolette, not shown, with which it is drive-coupled, so that it, for example, depending on the rotational position of a handle to be operated, is displaceable between the illustrated defined longitudinal positions.
• the closing part 1 1 can in particular be attached to a frame of a window or a door, while the espagnolette fitting is attached to a wing of the window or the door. In principle, however, the arrangement can also be reversed.
• the closing part 1 1 is thereby fastened with its base part 13 on the frame (or the wing).
• the base part 13 perpendicular to its planar extent extending bores 43 for (not shown) fastening means, in particular screws, on.
• bores 43 are provided along the longitudinal extent of the base part 13 (cf., in particular, FIG. 2E).
• the embodiment shown is in particular designed to be arranged on one side of a window or a door, which does not form a tilting axis of the wing of the window or the door, but is in particular just opposite the tilting axis.
• the locking element 23 is then usually just then received in the elongated receptacle 21, when the wing and the frame on which the closing part 1 1 and said espagnolette fitting are arranged abut each other, so the wing is closed.
• the longitudinal position of the locking element 23 shown in FIG. 2A may, for example, be a locking position of the locking element 23, in which the locking element 23 is blocked by the further abutment portion 29 from lateral movement out of the elongated receptacle 21. Since the further abutment portion 29 is formed on the base part 13 is (see Fig. 1), it is stationary, ie with respect to the frame (or the wing) stationary. Thus, the locking element 23 is locked against movement in the longitudinal axis L lateral direction. The closed wing can thus not be opened in this longitudinal position of the locking element 23, but is locked by the interaction of the locking element 23 and the (stationary) further stop portion 29.
• Such a locking position for example, correspond to a rotational position of a handle of the window or the door (not shown) down.
• Fig. 2B differs from Fig. 2A only in terms of the longitudinal position of the locking element 23, which is, for example, a rotational opening position.
• the distance (stroke) between said locking position (Fig. 2A) and this rotational opening position (Fig. 2B) may be due, for example, to a rotation of said handle by 90 ° in a horizontal orientation.
• the locking element 23 is in a region of the elongated receptacle 21, which is bounded laterally by the passage portion 25.
• the passage portion 25 releases the lock member 23 in its rotational opening position for lateral movement out of the elongated receptacle 21, so that the wing can be opened (turned).
• FIG. 2C which differs from FIGS. 2A and 2B only in that the locking element 23 is in a further longitudinal position, for example, a tilted opening position, the locking element 23 is for lateral movement out of the elongated receptacle 21 released by the passage portion 25, so that the wing (tilt) can be opened.
• FIGS. 2A to 2C it can be seen that the lift between the tilt open position (FIG. 2C) and the rotate open position (FIG. 2B) is less than the lift between the rotation open position (FIG. 2B) and the lock position (FIG. 2A) is, in particular, just half the size.
• the Kippötechnischs- position of the locking element 23 may thus, for example, from a rotation of the said handle from the horizontal by 45 ° upwards in an inclined position. This represents a departure from the current rotational position of the handle for tilting the wing, in which the handle is typically oriented vertically upwards.
• the rotational position is vertically upwards for an additional defined longitudinal position of the locking element 23 is available, which is, for example, a secure tilted position, which is shown in Fig. 2D and 2E.
• a secure tilted position which is shown in Fig. 2D and 2E.
• the stroke between the secured tilted position (FIGS. 2D and 2E) and the tilted opening position (FIG. 2C) corresponds in particular once again to half of the stroke between the rotational opening position (FIG. 2B) and the locking position (FIG. 2A).
• the locking element 23 If the locking element 23 is urged in this position in the direction of the (mobile) stop section 27, for example by pulling on the handle of the wing or actuating a mechanism tilting the wing away from the frame, the locking element 23 exerts a transverse direction to the longitudinal axis L. Force on the stop portion 27 from. As a result, the adjusting member 15 is offset from its basic position in the direction of the force. Due to the interaction of the pin 39 with the slots 37, the adjustment member 15 is guided on the base part 13 but such that it is not exclusively in the direction of Force, that is offset perpendicular to the longitudinal axis L.
• the extent of the displaceability of the adjustment member 15 is advantageously limited due to the formation of the coupling guides as closed slots 37. In the offset position, the adjustment part 15 is therefore offset, in particular, at most relative to the base part 13.
• the locking element 23 preferably can not change its longitudinal position unimpeded (but only when the handle or at least the espagnolette is actuated), it remains between the basic position (FIG. 2D) and the offset position (FIG. 2E) during the displacement of the adjusting part 15 ) in the secured tilt position. On the side, however, the locking element 23 is displaced together with the adjustment part 15 in the secured tilted position, as illustrated by the comparison of FIG. 2D with FIG. 2E.
• the displaceability of the locking element 23 is also limited due to the limited displaceability of the adjusting part 15.
• the locking element 23 remains in the elongate receptacle 21, so that the locking element 23 is still secured therein.
• the locking element 23 moves due to the oblique displacement of the adjusting member 15 relative to the adjustment member 15 in the direction of the longitudinal axis L, namely further in the direction of the (mobile) stopper closer, first end 31 of the elongated receptacle 21st
• the locking element 23 penetrates deeper into the first end 31 of the elongated receptacle 21 a, so that it is then locked over its entire longitudinal extent and thus particularly secure by the (mobile) stop portion 27.
• the first end 31 of the elongate receptacle 21 acts as a stop for the locking element 23, as a result of which the displaceability of the adjustment part 15 and of the locking element 23 can additionally be limited.
• the two-part embodiment of the closing part 11 with a base part 13 and an adjusting part 15 movably mounted on it makes it possible to provide a longitudinal position of the locking element 23 in the oblong receptacle 21 in which the locking element 23 is secured, but nevertheless limited laterally displaceable, so that, for example, a closed wing of a window or a door can be tilted wide a gap.
• the size of the gap is defined by the extent of the displaceability of the adjustment part 15 relative to the base part 13 and is very small compared to a typical tilt-open position. In this way, for example, a ventilation position of the wing can be realized, which is particularly well secured against break-open attempts.
• the passage section 25 and the abutment sections 27, 29 may be in opposite directions.
• a counter-abutment portion 45 may be provided, which strikes upon reaching the offset position of the adjustment member 15 on the (stationary) further abutment portion 29 and so additionally blocks a further displacement of the adjustment member 15.
• first end 31 of the elongate receptacle 21 may include a bottom portion 47 extending from the second level into the first level into a countersink portion 49 formed as a shallow depression in said flat side of the base portion 13 and a stop edge 51 against a counter-abutment edge 53 of the sink portion 49 abuts when the offset position is reached.
• 15 further stops may be formed between the base member 13 and the adjusting member, which also help to prevent a displacement in the opposite direction beyond the normal position addition.
• said base section 47 can cooperate with said depression section 49 via a further stop edge and a further counterstop edge (not shown) and / or can the (stationary) further stop section 29 be connected to a further counterstop section 45 'of the adjustment element 15 in its Basic position cooperate (see Fig. 2A).
• the adjustment member 15 can be pushed back from the offset position by means of the locking member 23 back to the normal position, at the stop portion 27 just opposite side of the elongated receptacle 21 is formed a back stop portion 55 on the adjustment member 15 against which the locking member 23 presses when it is urged in that direction, such as closing the sash of the window or the door.
• a force is derived by the oblique guidance of the pin 39 in the slots 37 to a corresponding oblique displacement of the adjusting member 15 back to its normal position until the state shown in Fig. 2D is reached again. From there, the locking element 23 then back into one of his be moved to other longitudinal positions to set a different opening or closing state of the window or the door.
• respective bores 57, 59 are provided in the base part 13 and the adjusting part 15, which holes are aligned with one another in the basic position of the adjusting part 15. Therefore, these holes 57, 59 can be used to fix by inserting a pin or a bolt (not shown), the adjusting member 15 in its normal position, so that the closing part 1 1 as a conventional closing part without the function, a limited lateral displacement of the secured To allow locking element 23, can be used.
• the bores 57, 59 can also be provided to receive each other attracting magnetic elements as locking means which hold the adjustment member 15 in its normal position, at least as long as no force overcoming the magnetic force is exerted in the lateral direction on the adjustment member 15.
• the adjustment part 15 it is possible to prevent the adjustment part 15 from being displaced unintentionally from the basic position, that is to say without being subject to e.g. the locking element 23 is in the secured tilted position (FIGS. 2D and 2E) and presses against the adjusting part 15.
• magnetic elements may be provided which are arranged so that they secure the offset position of the Ver adjusting 15 latching.
• FIGS. 3A to 3C exemplifies a particularly compact closing part 11, which, despite its small dimensions, has the mentioned function of a limited lateral displaceability of a locking element 23 secured in the elongate receptacle 21 of the closing part 11.
• elements corresponding to elements of Figs. 1 and 2 are indicated by the same reference numerals.
• the closing part 1 1 according to the embodiment shown in FIG. 3 largely corresponds to a part of the embodiment shown on the right in FIGS. 1 and 2.
• the elongate receptacle 21 is further defined by the region which the locking element 23 can assume in its various longitudinal positions along the longitudinal axis L, and therefore can also extend outside the closing part 11.
• the closing part 1 1 shown in FIGS. 3A to 3C has no (stationary) further stop section 29.
• a separate further closing part 61 shown in Fig. 3A with broken lines
• a (stationary) further stop portion 29 may be provided on conventional manner may be formed.
• FIGS. 3A to 3C functions completely in accordance with that shown in FIGS. 1 and 2.
• the longitudinal position of the locking element 23 shown in FIG. 3A is, for example, a tilt-open position in which the locking element 23 is released from the elongate receptacle 21 through the passage section 25 for lateral movement.
• FIGS. 3B and 3C show a secured tilting position of the locking element 23, wherein the adjusting part 15 is shown in the basic position in FIG. 3B as well as in FIG. 3A, out of which it, in particular by the locking element 23, in the in Fig. 3C can be urged shown offset position.
• the locking element 23 is offset relative to the base part 13 transversely to the longitudinal axis L limited. Since this embodiment has only a single pin 39 and a single slot 37, the pin 39, which otherwise has a round cross-section, is flattened in the region of the slot 37 towards its two longitudinal sides (see dotted lines in FIGS. 3A to 3C). to prevent the adjustment member 15 can rotate about the pin 39. Since the embodiment shown is purely exemplary, an anti-rotation of the adjustment member 15 relative to the base member 13 but also by other (guide) elements and / or otherwise be effected.

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• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Operating, Guiding And Securing Of Roll- Type Closing Members (AREA)
• Lock And Its Accessories (AREA)
• Wing Frames And Configurations (AREA)

Priority Applications (3)

Applications Claiming Priority (2)

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• 2015
  • 2015-08-13 DE DE102015113394.6A patent/DE102015113394A1/de not_active Withdrawn
• 2016
  • 2016-08-08 PL PL16751562T patent/PL3320165T3/pl unknown
  • 2016-08-08 EP EP16751562.6A patent/EP3320165B1/de active Active
  • 2016-08-08 CN CN201680047888.1A patent/CN108026742B/zh active Active
  • 2016-08-08 WO PCT/EP2016/068895 patent/WO2017025514A1/de active Application Filing

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