EP0516928B1 - Mortise lock - Google Patents

Description

The invention relates to a lock, in particular mortise lock, with a bolt and preferably a latch and a transmission lever acting on the bolt and equipped with a locking engagement opening for closing and closing the bolt to achieve an increase in the closing stroke, and furthermore with a tumbler which can be lifted against a spring action against a spring action .

A generic lock is known from British Patent 1485267. The lock has a round cylinder with a lock bit which interacts with a transmission lever which is pivotable about an axis below the axis of rotation of the lock bit. The free end of the transmission lever protrudes into a driving opening of a bolt arranged above the locking cylinder. The lock cylinder lies in an all-round closed opening of the transmission lever. Due to the lever ratios, the closing stroke is increased.

Another lock is known from DE-GM 16 41 147, wherein the one-armed translation lever mounted below the cam lock insertion opening is at its free end in pin / slot engagement to the bolt. In the area of the locking bit insertion opening, the transmission lever forms an opening which is equipped with a locking engagement opening directed radially to the bolt. A touring pin extends adjacent to the locking engagement opening. This works together with the tour recesses from the lock housing side stored tumblers. A lock designed in this way is not suitable for lock cylinders designed as profile cylinders. Furthermore, in the event of an attempted break-in, push-back forces exerted on the bolt act on the transmission lever, and also translated in conjunction with a low break-in stability.

Furthermore, a lock from DE-OS 26 42 367 is known, the translation lever is also in pin / slot engagement to the bolt, the translation lever itself does not form a locking engagement opening, but it is only acted on when closing the bolt on its corresponding rear edge. When closing back by means of the closing member of the profile cylinder, this acts on an angle leg of a slide guided in the bolt. This configuration has many parts in terms of its structure and leads to increased production costs.

The object of the invention is based on the object of designing a generic lock of simple construction in such a way that profile cylinders can be used while achieving an optimal locking method and burglar resistance.

The issue is solved by the features specified in claim 1.

The subclaims relate to advantageous developments of the inventive solution.

Due to such a design, a lock of the type in question is specified for the first time, which works together with a profile cylinder and the lever-enlarged inclusion and exclusion of the bolt allows such that the locking member acts only on the transmission lever. The movement path of the closing engagement opening located on the transmission lever extends approximately over a quarter-circle section of the cylindrical head section of the profile cylinder insertion opening. This quarter circle section is located on the side facing the rear wall of the castle. This means that when the transmission lever is articulated below the axis of rotation of the lock bit, this engages around the profile cylinder to about two thirds of its circumference and still allows the translation lever a large swivel angle combined with a wide pre-closing of the bolt with only one closing tour. Nevertheless it is realized that in each end position of the transmission lever, the closing member detects the closing engagement opening of the transmission lever and entrains it in the corresponding direction. The end points of the quarter-circle section alternately coincide approximately with the positions which the front mouth points of the rim of the lock cylinder engagement opening assume in the two closed positions. The edge surround leads to a larger area of the locking member on the transmission lever, so that on the one hand optimal forces can be transmitted when closing and on the other hand, premature wear is counteracted. Then such an arrangement of the locking engagement opening is provided that its mouth does not exceed the connecting line from the articulation point of the transmission lever and slot / pin application point on the bolt. With each closing operation, the pin in the slot therefore always moves in one direction only. In the prior art according to DE-GM 16 41 147, a movement of the pin back and forth takes place in the slot on each closing tour. A triple layer arises due to the fact that the tumbler is mounted on the bolt and the edge of the locking engagement opening of the transmission lever lies in the area of a rear recess in the bolt tail, which is covered by a partial area of the tumbler. The tumbler spring can therefore also be effective between the bolt and the tumbler. Bolt and tumbler, including the spring, can be used as a preassembled unit during final assembly, specifically after arranging the transmission lever. The first position of the three-layer arrangement mentioned above is represented by the transmission lever. The next is the bolt, in the rear recess of which the edging extends. The third layer then represents the tumbler, which is also next to the bolt is still supported on the rim of the transmission lever, the corresponding region of the tumbler protruding into the closing engagement opening. The fact that the articulation point of the transmission lever lies at the level of the lower rounded flange section of the profile cylinder insertion opening then contributes to the wide embracing of the profile cylinder. It should also be emphasized that the tumbler spring lies in a recess in the bolt tail and is at least partially covered by the tumbler. In this way, the tumbler spring is still stabilized. The tumbler in turn acts together with two abutments designed to be stationary on the castle ceiling. The latter are offset from one another in the closing direction. The abutments are also offset from one another in the vertical direction in such a way that the abutment adjacent to the lock cuff is higher. This is also the one on which the tumbler is supported when the bolt is closed, so that corresponding push-back forces are absorbed cheaply and are not passed into the transmission lever as in the prior art. To ensure that the bolt can be closed smoothly despite the two abutments, the guard locking forms a channel for passing over the abutments. Large abutments are possible in that the channel base is at the same height as the corresponding side wall of the bolt, so that there is a large depth of entry to the tumbler. If the bottom of the sewer continues into the bearing bracket, the tumbler with its bracket in the pre-closed position can reach the area of the lock cuff.

Fig. 1

eine Ansicht eines als Treibstangenschloß ausgebildeten Schlosses mit in Offenstellung befindlichen Treibstangen und vorgetretener Falle,

Fig. 2

eine klappfigürliche Ansicht der Fig. 1,

Fig. 3

eine Ansicht des Treibstangenschlosses bei abgenommener Schloßdecke, ebenfalls die Offenstellung des Treibstangenschlosses betreffend,

Fig. 4

in vergrößerter Darstellung den Schnitt nach der Linie IV-IV in Fig. 3,

Fig. 5

in vergrößerter Darstellung eine Ansicht des Treibstangenschlosses im Bereich der Nuß und der Falle, betreffend die Offenstellung des Treibstangenschlosses,

Fig. 6

eine Ansicht des den Fallenschwanz sowie die Fallenfeder aufnehmenden Schuhes, vom Schloßboden her gesehen,

Fig. 7

den Schnitt nach der Linie VII-VII in Fig. 6,

Fig. 8

eine Ansicht des zwischen Schloßdecke und Schloßboden angeordneten Kupplungsgliedes mit federnd auseinandergespreizten Schlitten entsprechend ihrer Ausgangsstellung,

Fig. 9

eine Darstellung gemäß Fig. 5, wobei abweichend von dieser das den Drückerdorn aufnehmende Nußteil durch Verlagerung des Drückers in der normalen Betätigungsrichtung verschwenkt ist unter einhergehender Mitnahme des Kupplungsgliedes,

Fig. 10

eine der Fig. 4 entsprechende Darstellung, welche den Zustand des Kupplungsgliedes nebst Schlitten in Fig. 9 aufzeigt,

Fig. 11

weiterhin eine der Fig. 5 entsprechende Darstellung, wobei abweichend von dieser der Drücker in entgegengesetzter Richtung verschwenkt ist unter Verlagerung des Treibstangen-Anschlußschiebers mit den Treibstangen in die Verriegelungsstellung und entsprechend mitgeschlepptem Kupplungsschieber,

Fig. 12

die der Fig. 4 entsprechende Schnittdarstellung unter Berücksichtigung der Stellung gemäß Fig. 11,

Fig. 13

in vergrößerter Darstellung den unteren Bereich des Treibstangenschlosses im Bereich des Riegels bei zurückgeschlossenem Riegel,

Fig. 14

die klappfigürliche Seitenansicht der Fig. 13,

Fig. 15

eine Draufsicht auf Fig. 13, jedoch bei fortgelassenen Schloßwänden - Schloßboden und Schloßdecke - und

Fig. 16

eine der Fig. 13 entsprechende Darstellung, jedoch bei vorgeschlossenem Riegel.

An embodiment of the invention is explained below with reference to the drawings. Show it:

Fig. 1

1 shows a view of a lock designed as an espagnolette lock with the espagnolette in the open position and the latch that has stepped forward,

Fig. 2

2 shows a foldable view of FIG. 1,

Fig. 3

a view of the espagnolette lock with the lock cover removed, also regarding the open position of the espagnolette lock,

Fig. 4

in an enlarged view the section along the line IV-IV in Fig. 3,

Fig. 5

an enlarged view of the espagnolette lock in the area of the nut and the latch, regarding the open position of the espagnolette lock,

Fig. 6

a view of the shoe receiving the trap tail and the trap spring, seen from the castle floor,

Fig. 7

the section along the line VII-VII in Fig. 6,

Fig. 8

2 shows a view of the coupling member arranged between the lock cover and the lock base, with a spring that is spread apart according to its starting position,

Fig. 9

a representation according to FIG. 5, deviating from this, the nut part receiving the handle mandrel pivots by moving the handle in the normal direction of actuation is accompanied by the coupling member,

Fig. 10

4 shows a representation corresponding to FIG. 4, which shows the state of the coupling member and slide in FIG. 9,

Fig. 11

Furthermore, a representation corresponding to FIG. 5, with the lever being pivoted in the opposite direction, with the connecting rods being displaced with the connecting rods in the locking position and the coupling slide being carried along accordingly,

Fig. 12

4 corresponding sectional view taking into account the position shown in FIG. 11,

Fig. 13

in an enlarged view the lower area of the espagnolette lock in the area of the bolt with the bolt locked,

Fig. 14

the folding side view of Fig. 13,

Fig. 15

a plan view of Fig. 13, but with the castle walls omitted - castle floor and castle ceiling - and

Fig. 16

a representation corresponding to FIG. 13, but with the bolt locked.

The lock designed as an espagnolette lock has a lock cuff 1 with a lock wall connected to it and representing the lock base 2. In parallel Arrangement to this is the castle wall 3 forming the castle wall. The castle interior extends between the castle floor 2 and the castle ceiling 3.

In the lower area of the lock housing, a profile cylinder insertion opening 4 for receiving a profile cylinder 5 is provided in the lock base 2 and lock cover 3. Through this, a closing member hub 6, illustrated in phantom in FIGS. 13 and 16, with a closing member 6 'extending radially therefrom can be controlled. The locking member (6 ') forms the locking bit which plunges into the locking engagement opening (30) of the transmission lever (27).

The cross-sectional shape of the profile cylinder 5 corresponds to that of the profile cylinder insertion opening 4. This is composed of a cylindrical head section 7 and a radially extending flange section 8, which merges into a rounded flange section 8 'near the lower edge of the lock housing.

A bolt 9 is guided close above the profile cylinder insertion opening 4. It is composed of a bolt head 9 'and an adjoining bolt tail 9''. To guide the bolt 9, on the one hand, an opening 10 in the lock cuff 1 adapted to the crosshead 9 'serves as a cross-sectionally extending projection 11 in the upper area, which engages in a longitudinal slot 12 of the lock base 2 running perpendicular to the lock cuff 1 . The projection 11 is offset from a locking cam 13, the latter being used to block a connecting rod connecting slide 14 in its locking position. The locking cam 13 bridges the distance between the bolt tail 9 '' and the lock base 2, cf. in particular Fig. 15.

The bolt tail 9 ″ is provided on its side facing the lock top 3 with a stepped recess 15 to form a thinner end section of the bolt tail 9 ″. In this area there is a slot 16 running transversely to the closing direction of the bolt 9 for receiving a tumbler spring 17 designed as a compression spring. The upper end thereof is supported on the corresponding transverse edge of the slot 16. The lower end of the tumbler spring 17 is supported on a tongue 18 of a tumbler 19 protruding into the slot 16. The latter is pivotally mounted on the bolt tail 9 ″ with the bearing point facing the bolt head 9 ′. This is formed by a bearing pin 21 extending from a bearing bracket 20 of the tumbler 19 and immersed in a bearing bore 22 of the locking tail 9 'which is adapted to the cross section. The tumbler spring 17, as can be seen from the figures, is at least partially covered by the tumbler 19. Your limit stop receives the tumbler 19 in that the spring-loaded tongue 18 is supported on the lower, sloping end of the slot 16, cf. Fig. 13.

In its area lying beyond the bearing bracket 20, the tumbler 19 is designed so thick that it extends to the castle ceiling 3, cf. 14 and 15. In this area the tumbler 19 has a channel 23 which rises obliquely in the direction of the bearing point, the channel bottom of which continues into the bearing plate 20. Because of this, the bearing bracket 20 can overlap with the lock cuff 1 when the bolt 9 is closed, cf. Fig. 16.

The tumbler 19 acts together with two abutments 24 and 25 which are designed to be stationary on the lock cover 3. These are offset from one another in the closing direction of the bolt educated. Furthermore, the abutments 24, 25 are offset from one another in the height direction in such a way that the abutment 25 adjacent to the lock cuff 1 is higher, but runs at the level of the channel 23. The upper side wall of the channel 23 has a stepped alignment, forming a blocking extension 26, in front of which the abutment 24 extends in the closed position of the bolt 9, cf. Fig. 13. The bolt 9 is thus locked against pre-closing.

The catch 9 is carried along during the closing rotation of the closing member 6 'via a transmission lever 27. It is a one-armed lever with respect to the same, the articulation point 28 of which lies at the level of the lower rounded flange section 8' of the profile cylinder insertion opening 8, specifically on the side facing the lock cuff 1. Above the head section 7, the transmission lever 27 continues into a bend 29 which extends to the rear of the lock and which has a locking engagement opening 30 for the entry of the locking member 6 '. The angled portion 29, which extends between the bolt tail 9 ″ and the lock base 2, is the carrier of a pin 31 pointing in the direction of the bolt 9, which engages in a slot 32 of the bolt tail 9 ″ running transversely to the locking direction of the bolt. When the bolt 9 is closed, the pin 31 extends at the lower end of the slot 32, cf. 13. In addition, the bend 29 forms an edge surround 33 in the region of the locking engagement opening 30, for which a recess 34 is provided in the offset end section of the locking tail 9 ″. Transmission lever 27, bolt tail 9 '' and tumbler 19 therefore form a three-layer layer which extends the space between the lock top 3 and lock base 2. Otherwise, the tumbler 19 projects with its lower, obliquely in the direction the lock cuff 1 rising edge 19 'in the locking engagement opening 30th

As can be seen from FIGS. 13 and 16, the locking engagement opening 30 does not exceed the connecting line A-A from the articulation point 28 of the transmission lever 27 and the slot / pin engagement point 31/32 on the bolt 9, neither with the bolt closed nor with the bolt closed.

In the upper area of the lock housing is a two-part nut 35. It is composed of two nut parts 36 and 37. The nut part 36 has a central hub 38, which is used for storage in the lock base 2 and lock cover 3. The corresponding bearing point is located vertically above the profile cylinder insertion opening 4 at a standardized distance. The hub 38 is formed into a semicircular disk 39, the radial shoulders of which form stop surfaces 40, 41. The one radial shoulder - stop surface 40 - is preceded by a driving arm 42 for withdrawing a catch 43 arranged above the nut 35. Extending in the same plane with the disk 39 is an actuating arm 44 which extends perpendicularly to the stop surfaces 40, 41 and extends from the hub 38 and which is in positive connection with a coupling member 46 via a molded-on cam 45. However, both nut parts 36, 37 have different axes of rotation M1 and M2. The axis of rotation M2 of the nut part 37 cooperating with the connecting rod connecting slide 14 is displaced with respect to the axis of rotation M1 of the nut part 36 towards the rear wall of the lock. In this way, a favorable leverage ratio can be achieved. The axis of rotation M1 is formed by the hub 38, while a pivot pin 47 on the lock base serves as the axis of rotation M2. In the nut part 37 there is an elongated hole 48 receiving the hub 38 for movement around the hub 38 a free projection 49 is formed on the nut part 37, which protrudes into a transverse slot 14 'of the connecting rod connecting slide 14. A pivoting of the nut part 37 thus leads to a compulsory entrainment of the connecting rod connecting slide 14. Furthermore, the nut part 37 is provided on its broad side facing the disk 39 with stops 50, 51 forming projections. These lie in the effective area of the stop surfaces 40, 41 of the nut part 36. In the open position of the drive rod lock with the drive rod connecting slide 14 taking the release position, from which the drive rods 52 and 53 extend at the end, the nut parts 36, 37 assume such a position that the Stop surfaces 41, 51 lie close to one another, while the other stop surfaces 40, 50 leave an open space between them.

In the above-mentioned basic middle position, the nut part 36 is held over the coupling member 46, which cooperates with slides 54, 55 spread apart by a compression spring 63. Both are held by hook-shaped overlap on the one-piece coupling member 46. For this purpose, the coupling member 46 extending in the immediate vicinity parallel to the rear wall in the longitudinal direction of the lock housing forms an elongated hole 59, into which hooks 56, 57 formed on the slide 54, 55 are immersed and thus partially overlap the coupling member 46. One housing wall - lock cover 3 - forms an elongated hole 58 into which the hook heads 56 ', 57' protrude, cf. 4, in addition, the carriages 54, 55 form guide projections 60, 61 on their sides opposite the hooks 56, 57 for entry into an elongated hole 62 of the lock base 2. The carriages 54, 55 are spread apart by the compression spring 63. Serve to record them at the facing end edges of the carriages 54, 55 outgoing bores 64, 65, into which centering pins 66, 67 protrude. In this way, the slides 54, 55 essentially enclose the compression spring 63. An essentially rectangular cross section of the slides 54, 55 is also provided. Each carriage forms a tongue 68, 69 which engages in a guide groove 70 or 71 of the other carriage. The outer surface of the tongue 68, 69 is flush with the corresponding side wall of the slide. In the case of carriages 54, 55 suspended in the coupling member 46, the hooks 56, 57 as well as the guide projections 60, 61 fit easily into the corresponding elongated holes 58, 62 of the lock top 3 and lock base 2. A unit consisting of the slides 54, 55, compression spring 63 and coupling member 46 can therefore be easily installed in the lock without compressing the compression spring 63. At its upper end, the coupling member 46 is equipped with an edge-side opening 72, into which the cam 45 of the actuating arm 44 of the nut part 36 is immersed.

The trap 43, which is guided above the split nut 35, is composed of a trap head 43 'and the trap tail 43''which is stepped in relation to it. On the one hand, the trap 43 is guided with its trap head in a form-fitting opening 73 in the lock cuff 1 and on the other hand with its trap tail 43 ″ in a shoe 74. The latter is block-shaped and has on its wide surface facing the lock base 2 two projecting plug pins 75, 76 for entry into cross-section-adapted holes in the corresponding lock wall or lock base 2. Possibly riveting the plug pins 75, 76 can be carried out. In this way, the shoe 74 is immovable held in the lock housing. The thickness of the shoe 74 corresponds to the internal distance between the lock base 2 and the lock cover 3. Within a recess 77 of the shoe 74 facing the latch 43 there is a latch spring 78 acting on the latch tail 43 ″. This is designed as a compression spring and is supported on one end on a rear wall 79 of the shoe 74 and on the other end on the rear end face of the trap tail 43 ″, cf. 6, in particular, a web 80 flanking the recess 77 serves to secure the position of the latch spring 78. This ends at a distance from the rear wall 79 and allows the latch spring 78 to be threaded on.

There is a positive guidance between the tail tail 43 '' and the shoe 74. The trap tail is created in flat form with guide grooves 81 located on the narrow surfaces for the entry of guide ribs 82 of the shoe 74 which are adapted to the cross-section a slot 85 of the lock cover 3 running in the direction of movement of the latch 43.

The screw 84 also represents the actuating cam for displacing the latch 43 by actuating the nut. The latch 43 is retracted via a latch lever 86. The latch lever 86 is mounted below the nut 35 around a housing-side stud 87. The latch lever 86 engages behind the catch arm 42 of the nut part 36 with a hook 88. The free end 89 of the latch lever 86 then occurs in front of the actuating cams or screw 84.

A spring-loaded safety slide 90 is also guided in the shoe 74 in the case shifting direction. The latter is composed of a thickened head 91 and two adjoining struts 92, which are supported in the end region of a T-shaped recess 93 of the shoe 74 and which load the head 91 in the direction of advance in such a way that the top surface of the corresponding side wall 94 of the Shoes 74 protrudes, cf. Fig. 6. In the open position of the connecting rods 52, 53, the head 91 of the safety slide 90 lies in front of a shoulder 95 of a cam 96 of the connecting rod connecting slide 14. For its parallel guidance to the lock cuff 1, pins 97 formed on the connecting rod connecting slide 14 are used, which extend into elongated holes 98 of the castle floor 2 engage. The aforementioned shoulder 95 extends obliquely to the direction of displacement of the safety slide 90 and is arranged opposite to a modulation slope 99 of the cam 96. The head 91 also has control bevels 100, 101 at the end.

The following mode of action occurs:
If only the latch 43 is to be withdrawn by means of handle actuation, then the handle must be shifted in the normal handle actuation direction, specifically to the position according to FIG. 9. Along with a pivoting of the handle into position B, only the nut part 36 about the axis of rotation M1 shifted. Its catch arm 42 acts on the hook 88 of the latch lever 86 and pivots it in a clockwise direction, its end 89 engaging the screw 84 - actuating cam - pulling the latch 43 in the direction of the lock. The nut part 37 is not taken along, because there is clearance between the two stop surfaces 40 and 50. Due to the rotary displacement of the nut part 36, the cam 45 takes the coupling member 46 with, cf. See also FIG. 10. Along with this, the upper slide 54 is moved from the upper slot edge 59 'of the coupling member 46 in the direction of the other slide 55 while compressing the compression spring 63. The lower slide 55 is supported on the lower slot transverse edges 62' and 58 '. with its guide projection 61 or hook head 57 '. If the trigger is released, the compression spring 63 guides the slide 55 and thus the coupling member 46 back to the basic position according to FIGS. 4 and 5 connected with a turning back of the nut part 36 into the basic central position.

In this basic middle position, which can be seen in particular in FIG. 5, the safety slide 90 which comes in front of the cams 96 of the connecting rod connecting slide 14 prevents a downward displacement of the connecting rod connecting slide 14 and thus the connecting rods 52, 53, so that they do not inadvertently fit into one Lock position can occur, for example, caused by vibrations.

If the locking of the espagnolette lock is to be brought about, the handle must be moved in the opposite direction, i.e. counterclockwise, starting from the basic central position according to FIG. 5, with an alignment according to line C, cf. Fig. 11. In parallel, the nut part 36 is rotated via the handle. Whose driver arm 42 does not lead to entrainment of the latter due to the free access to the latch lever 86. Only the stop surface 41 of the nut part 36 comes into contact with the stop surface 51 of the nut part 37 and pivots it about its axis of rotation M2 in connection with a pivoting of the nut part 37 counterclockwise. In this process, the drive rod connecting slide is through the driver projection 49 on the nut part 37 14 in the downward direction, that is, in the locking position. Simultaneously with the rotation of the nut part 36, the coupling member 46 is dragged along in the upward direction via the actuating arm 44. During the upward displacement, the lower elongated hole transverse edge 59 ″ of the coupling member 46 takes the lower carriage 54 in the upward direction against the load on the compression spring 63. The upper carriage 54, on the other hand, is supported with its guide projection 60 and its hook head 56 'on the oblong hole transverse edges 62''or58'', cf. In particular, Fig. 12. After releasing the handle, the upper carriage 54 returns to its starting position, taking the coupling member 46 with it, which rotates the handle part 36 back to the dash-dot position shown in FIG. 11. Here, the nut part 37 is not shifted. The locked position can be secured by means of the bolt 9. When the profile cylinder is actuated, the locking member 6 ′ dips into the locking engagement opening 30 of the transmission lever 27. At the same time, the edge 19 'of the tumbler 19 is acted upon and pivoted counterclockwise against the force of the tumbler spring 17. The locking projection 26 moves away from the abutment 24, so that when the transmission lever 27 is pivoted by means of the locking member 6 ', the bolt 9 can be pre-locked via the pin / slot engagement 31, 32. In the closed position, the tumbler 19 then lies with its rear edge in front of the abutment 25, which also has passed through the channel 23 of the tumbler 19 during the pre-closing. Push-back forces occurring on the bolt 9 are therefore passed through the tumbler 19 into the abutment 25 and not into the transmission lever 27. In the locked position of the bolt 9, the locking cam 13 on the bolt 9 is also in a rear recess

Claims (12)

1. Lock, in particular mortise lock, with bolt (9) and preferably catch (43), and a transmission lever (27) for advance and retraction of the bolt (9) which acts on the bolt (9) guided in a lock housing and is provided with a locking engagement opening (30), for engagement of a locking bit (6') of a lock cylinder, wherein the axis of rotation of the locking bit (6') is arranged beneath the bolt and wherein to obtain an increase in the locking stroke the transmission lever is coupled to the lock housing beneath the axis of rotation of the locking bit, further with a tumbler (19) which can be lifted out by the locking bit (6') against spring action, wherein the lock housing comprises a profile cylinder insertion opening (84), with a cylindrical head section (7) and a flange section (8') extending radially thereto, wherein the path of movement traversed by the locking engagement opening (30) during advance and retraction extends approximately over a quarter-circle section (V) of the cylindrical head section (7) in such a way that the end points (P1, P2) of the quarter-circle section alternately coincide with the front mouth end point (30') of the edge surround (33) of the locking engagement opening (30) in both locking positions, and wherein the tumbler (19) is mounted on the bolt (9).
2. Lock according to claim 1, characterised in that the tumbler (19) is mounted pivotably on the bolt tail (9") with a mounting point facing towards the bolt head (9').
3. Lock according to claim 1 or 2, characterised in that the mouth of the locking engagement opening (30) does not go beyond the connecting line (A-A) from the coupling point (28) of the transmission lever (27) and the slot/pin engaging point (31/32) to the bolt (9).
4. Lock according to any of the preceding claims, characterised in that the edge surround (33) of the locking engagement opening (30) of the transmission lever (27) is located in the region of a rear recess (34) of the bolt tail (9") which is covered by part of the tumbler (19).
5. Lock according to any of the preceding claims, characterised in that the coupling point (28) of the transmission lever (27) is located at the level of the lower curved flange section (8') of the profile cylinder insertion opening (4).
6. Lock according to any of the preceding claims, characterised in that a tumbler spring (17) is located in a slot (16) of the bolt tail (9") and at least partially covered by the tumbler (19).
7. Lock according to any of the preceding claims, characterised by two abutments (24, 25) formed stationarily on the lock top (3) for the tumbler (19).
8. Lock according to claim 7, characterised in that the abutments (24, 25) are offset from each other in the direction of locking.
9. Lock according to claim 8, characterised in that the abutments (24, 25) are offset from each other in the vertical direction and in that the abutment (25) adjacent to the lock cuff plate (1) is higher.
10. Lock according to any of the preceding claims, characterised in that in the tumbler (19) is formed a channel (23) for passing over the abutments (24, 25).
11. Lock according to claim 10, characterised in that the bottom of the channel is at the same level as the corresponding side wall of the bolt (9).
12. Lock according to claim 10 or 11, characterised in that the bottom of the channel continues into the mounting plate (20).

Images