DE1584112A1 - Single-organ fixing and locking device for a folding wall or folding door - Google Patents

Description

One-unit locking and locking device for a folding wall or folding door I. The invention relates to a device for locking a folding wall or folding door in any open position and for locking or unlocking it in the closed position with the aid of a common actuating element which performs an unlocking process when pivoted from the closed position in one direction of rotation and when pivoted in the opposite direction Direction of rotation moves the locking rod. Hitherto known single-organ devices of this type, for example the device described in DBGM 1 818 339 by the applicant, used a centrally symmetrical, round or multi-cornered button, whose outer shape and position in relation to the position of the actuating member, to operate the actuating member is indifferent. For this reason had to operate the actuator - d. H. to pivot it in one or the other direction of rotation - an arbitrary torque can always be exerted on that rotary knob. When opening the folding wall or folding door, a longitudinal force directed in the direction of opening of the door had to be superimposed on the torque. This is cumbersome and particularly difficult if you have to overcome the force of the brake springs when locking the folding wall. Furthermore, the more or less round rotary knobs do not externally reveal in which position (locked, open or locked) the device is currently located. In contrast, the invention consists in that an eccentrically engaging hand lever is used to pivot the actuating member in a manner known per se, and that a releasable locking of the actuating member against a pivoting movement in the locking direction is provided.

For rigid sliding doors, eccentric actuating handles are known in the form of hand levers that act on the pivot axis of the actuating member (nut) on one side in particular (see, for example, German Patent 138 828), which have the advantage that they are in the sliding direction of the door when a force is exerted at the same time perform a pivoting movement about the pivot axis of the actuating member and therefore the unlocking and the sliding movement take place at the same time.

In the case of folding walls or folding doors, such an arrangement has so far not been possible if one wanted to control the braking process for locking the folding wall or folding door in any open position with the actuating element in addition to the locking process, because then the lever - for example when the folding wall or folding door is pushed shut - would have actuated the locking device even if locking of the folding wall or folding door was not intended at all. This difficulty is eliminated by the locking provided according to the invention. When the folding wall is pushed shut, a locking element prevents the hand lever and thus the actuating element from moving out of the normal position. Only when the lock is released does the "grip" become a "twist grip", the pivoting of which rotates the actuating element in the braking direction of the locking device. When releasing the locking device, d. H. when you turn the hand lever back, the lock engages again.

In the opposite sense of rotation - d. H. in the opening direction of the folding wall or folding door - the hand lever can be pivoted at any time by the angle that the actuating element requires for unlocking. In so far, the arrangement corresponds to the devices known from rigid sliding doors. The release of the lock, which consists, for example, of a pivot lever that is normally blocked by a spring in the movement path of the shaped actuating member, can be done by a button arranged on the front side in the folding wall, which acts on the lever when pressed and this against the Spring force pivots from the path of movement of the actuating member, but the release member can also be provided on the hand lever itself. The device according to the invention is preferably used in a folding wall or folding door which is pulled into its closed position or held in this position by a magnetic tape on the end face. Such a folding wall does not necessarily require a bolt which creates a form-fitting connection between the folding wall end face and a strike plate or the like. In a further development of the invention, in such a case at least one extractor is provided which is moved out of the end face of the folding wall or folding door by the actuating element during the unlocking process. The movement of the trigger functionally takes the place of lifting a latch or the like and represents an unlocking process.

It has been found that the known advantages of a magnetic tape fastener are offset by the disadvantage of having to overcome the magnetic force abruptly when the door is opened, which is difficult in particular with high folding walls or folding doors. When using the extractor according to the invention, the operative connection of which to the actuating element is appropriately reduced, the folding wall or folding door held in the closed position by the magnetic tape is unlocked without any particular effort or even just a special measure. It is also particularly advantageous that the push-off device can be designed to be flush with the end face of the folding wall so that no interfering component protrudes from this end face, especially since bolts or the like '. because of the magnetic bandea- are not required. If, however, at least one swiveling hook bolt is provided which, in addition to the magnetic tape or instead of it, establishes a connection between the front side of the folding wall and the closing surface (which can be stationary or formed by another folding wall wing), it should carry an eccentrically attached magnet, which in the closed position area of the folding wall or folding door is subject to the action of a counter magnet provided on the strike plate, which pivots it in the direction of the bolt from a pivoted up position of rest. If the arrangement is made in this already proposed manner, it is provided according to a further feature of the invention that the counter magnet pivots the hook bolt into a standby position in which it freely moves into the strike plate opening when the wall or door is closed, and in the one In particular, the rear attachment of the hook bolt into a component displaced by the actuating element, for example the locking rod, which engages the hook bolt when the actuating element is subsequently rotated into the locking position. This training combines the advantages of the magnetically pivoted bolt with those of the single-member construction. In particular, the result is that the bolt normally (by spring force or corresponding weight distribution) remains in its swiveled up rest position, in which it does not protrude from the front side of the folding wall or folding door, and that it is not brought out of the front side in any opening position during the locking process because due to the lack of the magnetically actuated pivoting of the hook bolt this does not come into operative connection with the locking device. Furthermore, magnetic pivoting only up to a standby position (instead of the already proposed pivoting into the locking position) has the advantage that the folding wall or folding door does not necessarily have to be mechanically unlocked when moving out of its closed position, unless a special mechanical locking has taken place beforehand Has. If, for example, the bolt movement of the bolt (from the "ready position" to the locked position) is not coupled with the rotation of the actuator, but is carried out by a special, for example key-operated cam, the folding wall or folding door only needs to be mechanically unlocked when opening , d. H. to be unlocked if it had previously been intentionally locked and not just moved into its closed position, in which it is held, for example, by a magnetic tape. If, however, no magnetic tape is provided, it is recommended that the hook bolt is designed and articulated as a bolt pulling the folding wall or door into the closed end position, and is in operative connection with the actuating element in such a way that it is via the bolt position the hook bolt can also be moved further in the locking direction. This ensures that the longitudinal pulling movement of the door is completed first before the brake feet are extended and prevent further longitudinal movement. Finally, the locking and locking device on which the invention is based, provided the locking rod consists of two vertical "brake feet-bearing drive rods, which are eccentrically hinged to the actuator and are extended upwards or downwards when it is turned, advantageously further developed in that each a drive rod is articulated at one end and on the main section of a transverse lever, at the other end of which engages a push rod moved by the actuator in the manner of a crank drive The push rod initially swivels the cross lever around the pivot pin of one drive rod until the other drive rod, which is displaced as a result, comes into contact with the braking surface (ceiling or floor of the room) with its brake foot anzentrum fUT the further pivoting movement of the cross lever, which then moves the other connecting rod until its brake foot also comes to rest on the fixed counter surface *.

The push rod and its pivot pin are preferably curved in an S-shape movable on the actuating element in a manner known per se into an over-center position. Further only needs one brake foot with the new linkage arrangement to be supported resiliently on its drive rod, because the aforementioned displacement the momentary centers enable an "internal" length compensation of the drive rod. A particular advantage is that this length compensation without the need arises to make the actuator vertically displaceable.

The invention is illustrated in the drawings using exemplary embodiments, namely: Fig. -1 shows a partial schematic view of a folding wall or folding door in a perspective plan view of its end face and one side face, namely in the rest position (closed position) of the device according to the invention; Fig. 2 shows a section similar to FIG. 1 during the unlocking and opening process; Fig. 3 also shows a view corresponding to Fig. 1 when releasing the locking and securing the folding wall or folding door; Figure 4 shows a cross section through the mechanism of the invention in a preferred embodiment, in der.Stellung according to Figure 1 Figure 5 is a fig 4 corresponding partial cross-section in the position shown in fig. 2....; Fig. 6 to 8 also steps corresponding to Fig. 4 with the representation of different positions of the individual components which they assume in the course of the movement of the hand lever indicated in Fig. 3; Fig. A cross section through the mechanics of a modified embodiment; Fig. 10 shows a magnet-operated locking hook in its rest position (dashed line) and its ready position; 11 a representation of the mechanically locked bolt hook corresponding to ex. 10; Fig. 12 shows a representation corresponding to Figs. 10 and 11 of a bolt designed as a pointing hook bolt. at rest; and Fig. 13 shows the hook bolt according to Fig. 12 in the proper condition (dashed line) and in the mechanically locked position. The only schematically ANGED eutete, throughout denoted by 1 folding wall or folding door is in bekaüuter manner from not shown in detail guide elements - of which is interested in the present context mainly stiruseitige Führungsschienp which forms the end face 2 - and the flexible, collapsible Bespazuung. 3 On the Viezkantwelle 4 of the actuator 5 of the fixed. The adjusting and locking device (Fig.-4) are attached to both ends of the folding wall 1 protruding ends of hand levers 6, which, in their rest position, assume the vertical position shown in Fig. 1.

The rest position of the locking and locking mechanism, which is shown in Figs. 12 4 and 9 as well as 12 and 13 (dashed), corresponds to the closed position of the folding wall 1. In this position, on the one hand, the locking rod is relieved, but on the other hand the unlocking process is not triggered; rather, if the folding wall 1 is in its closed position. either the front-side magnetic strip of the folding wall (not shown in particular) is tightened or an existing bolt 7 is latched behind a corresponding opening 8 in the strike plate 9 (Fig. 9). With reference to Figs. 1 to 8 , the kufbau and the mode of operation of the device according to the invention will be described in the following for the case that in the closed state of the folding wall 1 a magnetic tape pulls the end face 2 against the strike plate or holds it (under "strike plate") is generally to be understood as a counter-surface which is stationary relative to the end face 2 and which can be formed by a wall, a door opening or the end face of another folding wall leaf ). As already mentioned, Figs. 1 and 4 show the rest or closed position, but for technical reasons the abutment formed by the strike plate has been omitted, especially since Figs. 1 and 4 a1, # ch show the state that exists when the door is closed . The force exerted by an operator in the direction of the PJbile 10 on one of the two hand levers 6 (Fig. 1) acts at the same time as a torque on the shaft 4 of the actuating member 5. However, its rotation is prevented because its surface 11 rests on the surface 12 a lever 13 is supported, which'um the pin 14 is pivotable. The force exerted on a hand lever 6 in the direction of arrow 10 therefore has no effect on the actuating member 5 or the parts interacting with it, but only serves to push the door closed, the lever 6 acting as a rigid "handle". If the door from its., Echließstellung, in which it is held from the magnetic tape, moved out, are thus opened, a force in the direction of arrow 15 to be exerted on the hand lever 6 obvious. As a result, the latter and with it the actuating member 5 are initially pivoted through the angle 16 (Figs. 2 and 5). During this pivoting movement of the gekrümuite portion 17 presses the actuating member 5 in the in Fig. 5 manner shown on the lever 13, so that this is pivoted about its pivot pin 14 and moved a lever attachment in the form of a block from the end face 2 of the folding wall. 1 This block, * the front of which is flush with the end face 2 in the rest state, forms a push-button 18. Due to the strong leverage from the hand lever 6 to the lever 13 , the AbdrÜcker.beim the unlocking process just described is pressed with relatively great force against the strike plate (not shown) , so that the force of the magnetic tape is easily overcome and the end face 2 detaches from the strike plate (not shown) without difficulty. The position shown in Figs. 2 and 5 is also retained when the folding wall 1 is opened further, further rotation of the lever 6 and the actuating device 5 as well as the lever 13 being prevented by one of the latter parts hitting a mechanical stop comes to rest. However, the pivoting position shown in Fig. 5 no longer has to fulfill any function when the folding wall 1 is opened further. As soon as the hand lever 6 is released, a spring 19, which is provided between an arm 20 of the lever 13 and a fixed surface 21 within the folding wall 1 , pushes the pivot lever 13 and thus also the actuating member 5 back into the position shown in Fig. 4 rest position, so that the hand lever 6 returns to its center position according to FIG. 1.

Fig. 6 to 8 show, together with Fig. 3 the movement sequence upon detection of the folding wall 1. To initiate this procedure, first the locking of the actuator 5 must werdentmelche lifted from its surface 11 and the surface 12 is formed of the lever 13. For this purpose, the lever 13 is pivoted against the force of the spring 21 with the depth of the button 22, which is let into the front side of the folding wall. The button 22 also presses the arm 20 of the lever 13 and pivots it into the same position that it had assumed during the unlocking process. Naturally, however, the arm 20 and the bead breaker 18 can sit on different levers, so that the bead breaker 18 upon release of the latch by pressing the knob 22 would not come out; a positive connection acting in one direction would only have to ensure that the restoring force of the spring 19 is also effective when the parts are returned from the unlocking process to the rest position or central position. If the button 22 is pressed and the lever 13 is pivoted about its pivot pin 14, the surface 11 of the actuating member 5 is facing the cutout 23 of the lever 13 , so that when the hand lever 6 is now moved in the direction of the arrow 24 in Fig. 3 the actuator can spin freely. Fig. 8 shows the end position finally reached, which corresponds to Fig. 3 , while Fig. 7 shows a middle position. A substantially S-shaped push rod 25 is pivoted about the pin 33 on the actuating member 5. The other end of the push rod 25 is pivotally gelagert.'Am opposite to one end of the transverse lever 26th At the end of the cross lever 26 , the downwardly leading drive rod 27 of the locking rod is hinged, which in a known manner, not shown, carries a brake foot at its end, which comes into frictional engagement with a fixed counter surface - usually the floor - when the drive rod 27 is extended. Between the articulation points of the push rod 25 and the drive rod 27 , the main section of the transverse lever 261 , furthermore, the drive rod 28 , which leads upwards and also carries a brake foot, is pivotably attached. The articulation point of the push rod 25 on the transverse lever 26 is denoted by 29, while the pivot points of the drive rods 27. and 28 have been given the reference numbers 30 and 31 , respectively. If the actuating member 5 is rotated after releasing the lock with the aid of the hand lever 6 (the position of which is indicated in the various drawing figures by a dash-dotted line * with the same reference number) in the manner shown in Figs. 7 and 8, the moves Push rod 25 and with it the cross lever 26 upwards. The transverse lever 26 rotates about an instantaneous center which is formed either by the pivot point 30 or the pivot point 31 . In the present case, the arrangement is such that the return spring (not shown) of the drive rod 2.7 is stronger than the force of the return spring of the drive rod 28, which is also not shown, increased by the weights of both drive positions 27, 28 . in this case, the pivot point 31 for MomentanzentrumfÜr the pivotal movement of the transverse lever 26 so that the drive rod 28 is in the direction of arrow (ABB 7) moves upward. If the brake foot comes to rest on the ceiling or the like at the end of the connecting rod 28 , the pivot point 30 becomes the center of the moment for the further movement of the transverse lever 26, and the connecting rod 27 moves in the direction of the arrow in Fig. ' 8 down. Suitable adjustment of the drive rod lengths and a spring provided between a brake foot and the associated drive rod ensure that the actuator 5 can move into an over dead center position after the brake foot of the drive rod 27 has come into frictional engagement with its counter surface shortly before. In the over-center position, the actuator 5 is secured by a stop 32; this state is just reached in Fig. 8. When the locking mechanism is released (turning the hand lever 6 counterclockwise in Fig. 3), the locking mechanism of the actuating element 5 automatically engages again. If, as shown in Fig. 9 , a locking hook 7 is provided instead of the magnetic tape, when unlocking the locking hook, which is freely pivotable on the axis 4 of the actuating member 5, is lifted with the help of the cam 34, which comes to rest on a counter cam 35 of the locking hook 7 . The engagement of the hook bolt 7 is located behind the opening 8 in the locking plate 9 by the own weight of the hook bolt 7 - results in the oblique edge 36 at Eiiidringen in the opening 8 in a known manner for lifting the hook -, or is supported by the force of a spring. With regard to the locking and its release as well as the function of the locking mechanism, the embodiment according to FIG. 9 corresponds to the example discussed above. In Figs. 10 to 13 locking hooks or pulling hook bolts are shown, which are not directly connected to the actuator & at 5 . The hook bolt 7 mounted on a stationary shaft 37 carries a permanent magnet 38 eccentrically to the shaft 37. The arrangement is made such that in the rest position - shown in geot # ichelt - when the front rail of the folding wall is not in the closing area, i.e. H. is located in the vicinity of the locking plate 9 , the hook bolt 7 is automatically pivoted, for example by its own weight or spring force, into the interior of the folding wall. Only when the end face 2 of the folding wall approaches the strike plate 9, and thus the permanent magnet 38 approaches an oppositely polarized permanent magnet 39 , is the locking hook 7 pivoted under the force of the two magnets into the "ready position 11 drawn out in Fig. 10, in which it is free the opening 8 in the strike plate 9 can retract - The locking hook 7 only reaches the locking position shown in Fig. 11 if it is pivoted further against the magnetic force of attraction by the key-operated cams 40, for example.

According to Figs. 12 and 13 , the bolt - in the absence of a magnetic tape - is designed as a pulling hook bolt 41. Its pivoting - from the rest position shown in Fig. 12, in which it is located completely within the folding wall, into the ready position indicated by dashed lines in Fig. 13 takes place in the same way as was described with reference to Figs. 10 and 11 .

When the standby position is reached-2 penetrates a rear extension 42 of the hook bolt 41 in an ope- ning in the drive rod 28 a 43rd If this is moved in the direction of the arrow after releasing a lock accessible from the folding wall side during the locking process, the projection 42 is taken along and pivots the hook bolt 41 further counterclockwise in Fig. 13. The hook bolt 41 grips a slide mounted behind the strike plate 9 so that it can be moved vertically 44, which moves downwards in the direction of the arrow when the hook bolt is swiveled further, while at the same time the end face 2 of the folding wall is drawn against the strike plate 9 (reversed according to the dashed representation in Fig. 13 ). In the operative connection - between the drive rod 28 and the extension 42 of the hook bolt 41, a spring 45 is switched on, so that the hook bolt is first pivoted into the Sähließstellung drawn in Fig. 13 , before the drive rod 28 with further upward movement and compression of the Spring 45 brings the associated brake foot to rest on the fixed counter surface.

Claims (2)

A ns p r Ü che 1. Device for locking a folding wall or folding door in any open position and for locking or unlocking it in the closed position with the aid of a common actuating element which, when pivoted from the closed position in one direction of rotation, performs an unlocking process and at , Pivoting in the opposite direction of rotation moves the locking rod, characterized in that an eccentrically engaging hand lever (8) is used to pivot the actuating Lmgsorgans (5) -in a known manner, and that a releasable locking device (11, 127 131 22) of the actuating member (5) is provided against a pivoting movement in the locking direction. 2. Apparatus according to claim 1, characterized in that a spring (19) biases the hand lever (6) into its central position corresponding to the closed position of the actuating member (5). 3. Apparatus according to claim 1 or 2, characterized in that the locking consists of a pivot lever (13) which is normally blocked by a spring (19) pressed into the path of movement of the shaped actuating member (5). 4. Apparatus according to claim 3, characterized in that a front side in the folding wall (1) arranged button (22) when pressed acts on the lever (13) and this pivots against the spring force from the path of movement of the actuating member (5). 5. Device -according to claims 1-3, characterized gekennzeic'h-net that the lock (11, 12) can be canceled by a release member provided on the hand plane (6). 6. Device according to one of the preceding claims for a folding wall or folding door which is pulled into its closed position by an end-face magnetic tape or held in this position, characterized by at least one of the actuating member (5) during the unlocking process from the end face (2) of the folding wall or folding door (1) moved out trigger (18). 7. Device according to claim 6, characterized in that the extractor (18) consists of a block which can be swiveled out and is flush with the end face (2) of the folding wall (1) in the rest position. 8. Device according to claims 7, characterized in that the locking pivot lever (13) with the trigger (18) consists of one piece, and that the return spring (19) of the SGh pivot lever (13 ) serves at the same time to reset the hand lever (6) . Device according to one of the preceding claims with at least one pivotable hook bolt which carries an eccentrically attached magnet which, in the closed position area of the folding wall or folding door, is subject to the action of a counter magnet provided on the strike plate, which pivots it in the direction of the bolt from a pivoted up rest position, characterized in that that the counter magnet (39) swivels the hook bolt (7.- 41) into a ready position in which it moves freely into the strike plate opening (8) when the folding wall or folding door (1) is closed, and in which a particularly rear projection (42 ) of the hook bolt (7; 41) engages in a component moved by the actuating element (5) , for example the locking rod (28) , which further pivots the hook bolt (7; 41) into the locking position when the actuating element (5) is subsequently rotated. 10. The device according to claim 9, characterized in that the hook bolt is designed and articulated as a folding wall or FalttÜr (1) in the closed end position pulling bolt (41) and is in operative connection with the actuator (5) in such a way that this can be moved further beyond the locking position of the hook bolt (41) in the locking direction. 11. Device according to one of the preceding claims, in which the locking linkage of two vertical, brake feet supporting rods consists, which are articulated eccentrically on the actuating member and are extended in the rotation thereof upwards or downwards, as & = ch in that a respective rod ( 27, 28) is articulated at one end and on the main section of a transverse lever (26) , at the other end of which a push rod (25) moved by the actuating element in the manner of a crank drive engages. _ 12. The apparatus of claim 11, dadurch.gekennzeichnet that the push rod is curved (25) is S-shaped and its hinge pivot * (33) in a manner sich'bekannter is movable to a position beyond dead center on the actuating member (5). 13. The apparatus of claim 11 or 12, characterized in that in manner known per se just a brake foot resiliently against the associated drive rod (27; 28) is supported.