Abstract
Closing device (1) with a pusher (17), a closing and opening mechanism (7) comprising at least one locking element (9), wherein the at least one locking element (9) movable by means of a latch spring (19) from an open position into a closed is characterized in that the locking spring (19) to assist the closing movement of the at least one locking element (9) in the open position has a first bias voltage by turning the pusher (17) can be generated.
Claims
1. Locking device (1) comprising a handle (17), a closing and opening mechanism (7) which comprises at least one locking bar element (9), the at least one locking bar element (9) being movable by means of a locking bar compression spring (19) from an opening position into a locking position, wherein the locking bar compression spring (19) has a first preloaded spring force in the opening position for supporting a closing movement of the at least one locking bar element (9), wherein the locking bar compression spring (19), in the opening position, is in one setting free of tension and has the first preloaded spring force in another setting, after rotating the handle (17) wherein the handle (17) is connected to the locking bar compression spring (19) via a tensioning lever (27) and the tensioning lever (27) creates the first preloaded spring force of the locking bar compression spring (19) as the handle (17) is turned, wherein the tensioning lever (27) can be immobilised as it reaches a position which corresponds to the first preloaded spring force of the locking bar compression spring (19), wherein a trigger plate (13) has a second preloaded spring force for triggering the closing movement of the at least one locking bar element (9), said second preloaded spring force being less than the first preloaded spring force of the at least one locking bar element (9), wherein during a closing operation the trigger plate (13) moves in the opposite direction to the second preloaded spring force and releases the tensioning lever (27) from its position of immobilisation, such that the at least one locking bar element (9) moves automatically into the locking position.
2. Locking device according to claim 1, wherein the closing and opening mechanism (7) comprises a multiple locking means having a plurality of locking bar elements (9).
3. Locking device according to claim 2, wherein the multiple locking means (33) comprises a release device (35) which releases the multiple locking means (33) during an opening operation.
4. Locking device according to claim 3, wherein the release of the multiple locking means (33) is carried out by the release device (35) by rotation of the handle (17).
5. Locking device according to claim 3, wherein the release of the multiple locking means is effected by the release device (35) by means of the trigger plate (13).
6. Locking device according to claim 1, wherein the first preloaded spring force of the locking bar compression spring (19) takes place when at least half of a maximum movement of the handle (17) is reached.
7. Locking device (1) comprising a handle (17), a closing and opening mechanism (7) which comprises at least one locking bar element (9), the at least one locking bar element (9) being movable by means of a locking bar compression spring (19) from an opening position into a locking position, wherein the locking bar compression spring (19) has a first preloaded spring force in the opening position for supporting a closing movement of the at least one locking bar element (9), wherein the locking bar compression spring (19), in the opening position, is in one setting free of tension and has the first preloaded spring force in another setting, after rotating the handle (17), wherein the handle (17) is connected to the locking bar compression spring (19) via a tensioning lever (27) and the tensioning lever (27) creates the first preloaded spring force of the locking bar compression spring (19) as the handle (17) is turned, wherein the tensioning lever (27) can be immobilised as it reaches a position which corresponds to the first preloaded spring force of the locking bar compression spring (19), wherein the immobilisation of the tensioning lever (27) is carried out by means of a detent lever (25) arranged underneath the at least one locking bar element (9).
Description
(1) Embodiments of the present invention are described in more detail hereinafter with reference to the drawings, wherein:
(2) FIG. 1 shows a schematic side view of a locking device according to the present invention in a first embodiment, in the open position, with the locking bar compression spring not under compressive stress;
(3) FIG. 2 shows a schematic side view of the locking device of FIG. 1, in the open position, with the locking bar compression spring being put under compressive stress;
(4) FIG. 3 shows a schematic side view of the locking device of FIG. 2, in the open position, with the locking bar compression spring under compressive stress;
(5) FIG. 4 shows a schematic side view of the locking device of FIG. 1, in the open position, with the locking bar compression spring under compressive stress;
(6) FIG. 5 shows a schematic side view of the locking device of FIG. 4, but in a second embodiment with multiple locking, in the closed position, with the locking bar compression spring relaxed, the lock closed, released by means of the detent lever;
(7) FIG. 6 shows a schematic side view of the locking device of FIG. 5, in the open position, with the locking bar compression spring relaxed; and
(8) FIG. 7 shows a schematic side view of the locking device of FIG. 6, in the open position; the locking bar compression spring is compressed again when the door opens.
(9) FIG. 1 schematically shows in side view a locking device 1 in a first embodiment. The locking device 1 comprises a lock housing 3 and an end face 5. Arranged in the lock housing 3 is a closing and opening mechanism 7. The closing and opening mechanism 7 comprises, inter alia, in the present embodiment, a locking bar element 9, a catch element 11, a trigger plate 13 and a latch 15 acted upon by a handle 17. The latch 15 is structurally connected to the locking bar element 9 and to the catch element 11 by various lever-like components, so that operation of the handle 17, i.e. clockwise rotation of the handle 17, causes the catch element 11 to be pulled back into the lock housing 3. As a result of tensioning of the catch element 11, the latter is in the position shown in FIG. 1 when the locking device is in the open position.
(10) The closing and opening mechanism 7 essentially comprises four tensioning elements. The first tensioning element is a locking bar compression spring 19, the second tensioning element is a restoring spring 21, the third tensioning element is a trigger plate spring 23 and the fourth tensioning element is a detent lever spring 25. It is also possible to have further tensioning elements.
(11) In FIG. 1, the handle 17 is in a substantially horizontal position. The locking bar compression spring 19 is not under compressive stress. The restoring spring 21 and the detent lever spring 25 are not under compressive stress either. Only the trigger plate 13 is pre-tensioned by the trigger plate spring 23 and is located, together with the catch element 11, in a position in which it protrudes from the end face 5. In this position a door (not shown) is open, for example.
(12) FIG. 2 shows how the handle 17 is rotated clockwise a little before the door is closed. In FIG. 2, the handle 17 has been rotated out of its essentially horizontal alignment through 11.5 relative to the position in FIG. 1. As a result of the rotation of the handle 17 out of the alignment shown in FIG. 1 and into the alignment shown in FIG. 2, the locking bar compression spring 19 is put under compressive stress. To enable this to happen, the latch 1 to which the handle 17 is connected acts on a tensioning lever 27 which with its free end 27.1 compresses the locking bar compression spring 19 until the free end 27.1 of the tensioning lever 27 engages in a detent lever 29 and presses the latter downwards slightly, counter to the spring force of the detent lever spring 25. In this position, the detent lever is immobilised.
(13) In FIG. 3 the situation is just the same in relation to the at least one latching element 9 and its pre-tensioning. The movement of the handle shown in FIG. 3, which has progressed from the position shown in FIG. 2, results in a position of the handle 17 which has been rotated clockwise through 23 relative to the position in FIG. 1. The further movement of the handle in relation to FIG. 2 has resulted in the catch element 11 being withdrawn fully into the lock housing 3 in FIG. 3.
(14) FIG. 4 shows a situation in which the handle has moved back into horizontal alignment, after the situation shown in FIG. 3. The situations shown in FIG. 1 and FIG. 4 differ only in that the locking bar compression spring 19 is under compressive stress in FIG. 4 and is not under compressive stress in FIG. 1. In the setting shown in FIG. 4, the door can thus be closed, whereas in the setting shown in FIG. 1 it cannot.
(15) A door having the locking device 1 according to the invention can be closed in the situation shown in FIG. 3.
(16) In FIG. 5 the locking device 1 according to the invention is shown in its locked position with the door closed. As a result of the movement of the door in the situation shown in FIG. 4 into its closed position, i.e. the door leaf has been pivoted and the end face 5 has been brought into alignment with a strike plate 31 which is located on a door frame (not shown), and is now opposite the strike plate 31. During this alignment, the trigger plate 13 was in the way, so that during this operation it was pressed into the lock housing 3 counter to the force of the trigger plate spring 23 (second pretension) (cf. the arrow). As a result of being pressed into the lock housing 3, the trigger plate 23 has released the immobilisation of the detent lever 29, so that the at least one locking bar element 9 has been moved into the closed position (see the arrow) under the effect of the strong spring force (first pretension) of the locking bar compression spring 19. In the situation shown in FIG. 5, the locking bar element 9 and the catch element 11 engage in corresponding recesses in the strike plate 31. The door is locked. The first pretension of the locking bar compression spring 19 can thus be made substantially greater than the second pretension of the trigger plate spring 23.
(17) Further to the first embodiment with only one locking bar element 9, FIG. 5 also shows a second embodiment having an integrated multiple locking means 33. The multiple locking means 33 is of known construction and will not therefore be described further here. The multiple locking means 33 is connected to the closing and opening mechanism 7, again in known manner, by means of a release device 35. The closing movement described hereinbefore by means of the strong first pretension of the locking bar compression spring 19 and the weaker second pretension of the trigger plate spring 23 is transmitted to the multiple locking means 33 and its locking bars (not shown) through the closing and opening mechanism 7. During the closing process, the closing and opening mechanism 7 stresses the restoring spring 21 which withdraws the at least one locking bar element 9 into the lock housing 3 during an opening operation.
(18) FIG. 6 schematically shows how the situation shown in FIG. 5 changes when the door is indeed closed, i.e. the catch element 11 and the trigger plate 13 are engaging in the corresponding recesses in the strike plate 31, but the at least one locking bar element 9 has been withdrawn, so that the door can be opened using the handle 17. When the handle 17 is rotated slightly downwards in the clockwise direction, as indicated by the arrow, the release device 35, 50 is also unlocked, so that the locking bars of the multiple locking device 33 are also pulled back. The tensioning lever 27 is located with its free end 27.1 disengaged from the detent lever 29. Basically, the situation is once more the same as that shown in FIG. 1.
(19) Further turning of the handle in the clockwise direction leads to the situation shown in FIG. 7 and basically corresponds once more to the situation shown in FIG. 2. The process of compressing the locking bar compression spring 19 described above is then repeated. In FIG. 7, too, the latch 15 rotates and the tensioning lever 27 stresses the locking bar compression spring 19. The catch element 11 is still in the associated recess in the strike plate 31.
LIST OF REFERENCE NUMERALS
(20) 1 locking device 3 lock housing 5 end face 7 closing and opening mechanism 9 locking bar element 11 catch element 13 trigger plate 15 latch 17 handle 19 locking bar compression spring 21 restoring spring 23 trigger plate spring 25 detent lever spring 27 tensioning lever 27.1 free end of the tensioning lever 29 detent lever 31 strike plate 33 multiple locking means 35 release device
