FR2937363A1 - Locking mechanism for door frame, has locking cylinder including blocking unit constituted of lateral openings and locks that maintain bolt in unlocked position, for blocking rotor in rotation by eccentric drive - Google Patents

Abstract

The mechanism (24) has a locking cylinder (26) including a rotor (30) rotatably mounted inside a stator (28). The cylinder has a blocking unit that is constituted of opposed lateral openings and opposed locks to block the rotor in rotation when the cylinder is spaced from a protecting cap placed inside opposed lateral ribs. The cylinder has a confining unit that confines a captive key (32) in the rotor when mechanical units are spaced from one another. The locks maintain a bolt (34) in unlocked position, for blocking the rotor in rotation by an eccentric drive. An independent claim is also included for a locking device for maintaining a door leaf inside a door frame, comprising an articulated handle.

Description

Lockable key locking mechanism

The present invention relates to a captive locking mechanism. One area of application envisaged is in particular that of locking devices with an articulated handle, making it possible to maintain a flap locked in a fixed position inside a frame. Known key locking mechanisms known, for example to equip the fuel tank caps of motor vehicles, comprise a locking cylinder installed on the cap, and receiving means ~ o secured to the tank neck. The locking cylinder comprises a stator and a rotor rotatably mounted inside the stator as well as stop means intended to cooperate with the receiving means when the plug is engaged in the neck of the reservoir. These stop means are intended to extend in a locked position in said receiving means. The rotor has at one of its ends, a key inlet for receiving an actuating key, and at the other end thereof, an eccentric integral with the stop means. The key is then intended to be engaged through the rotor when said stop means are in said locked position to then drive the rotor in rotation and caused the translational movement 20 of the stop means to an unlocking position. Furthermore, the locking cylinder comprises first locking means to prohibit the extraction of the key outside the rotor when the latter is in a position corresponding to the unlocked position of the stop means. It also comprises second rotational locking means for locking the rotor 25 when the locking cylinder is spaced apart from the receiving means and more specifically when the cap of the reservoir is disengaged from its neck so as to be unable to use the operating key only on the condition that the cap has been reintroduced into the neck. Reference is made to WO 98/57 817, which describes such a device. It is relatively complex and is specifically adapted to the fuel tank cap of motor vehicles. Also, it is not transferable to other applications, and for example to the handle lock device. Also, a problem that arises and that aims to solve the present invention is to provide a universal and simple locking mechanism that can be adapted to many locking devices and this at cost benefits. In order to solve this problem, the present invention proposes a captive locking mechanism for securing two movable mechanical members relative to one another, said locking mechanism comprising a locking cylinder adapted to be installed on one of said mechanical members and receiving means of said locking cylinder adapted to be installed on the other mechanical member, said locking cylinder comprising, on the one hand a stator and a rotor rotatably mounted inside said stator, and secondly stop means adapted to extend in a locked position in said receiving means when the two mechanical members are brought closer to one another, said rotor having a key input adapted to receive a key and the opposite, an eccentric secured to said stop means, said key being intended to be engaged inside said rotor when said stop means extends in said locked position and is driven to cause the movement of said stop means to an unlocked position, said lock cylinder comprising on the one hand, extraction blocking means for retaining said key inside said rotor when said rotor is in a position corresponding to said unlocked position and secondly, rotational locking means for locking said rotor in rotation when said locking cylinder is spaced from said receiving means, and so as to trap said key inside said rotor when the two mechanical members are spaced apart from each other; according to the invention, said rotational locking means comprise at least one latch, said at least one latch being intended to hold said stopping means extended in said unlocked position, to lock in rotation said rotor via said latch eccentric. Thus, a feature of the invention resides in the implementation of a latch which directly holds the stopping means in the unlocked position to indirectly lock the rotor in rotation through the eccentric. Such an arrangement has the merit of simplifying the locking mechanism of the latch rotation as will be explained below. According to an embodiment of the advantageous invention, said at least one lock is controllable between an active position where it maintains said stop means extended in said unlocked position and an inactive position where it releases said stop means. And preferably, said at least one latch is controlled from said inactive position to said active position, when the two mechanical members are spaced from each other and said locking cylinder leaves said receiving means. As will be explained in more detail below, said at least one latch is maintained in its inactive position by the receiving means and as soon as the locking cylinder leaves the receiving means, said at least one latch escapes their range and ~ o leaving, it comes to extend in the active position. According to a preferred embodiment of the invention said stop means are movable radially in translation between said locked position in which they extend radially projecting from said locking cylinder and engage in the receiving means, and said unlocked position 1s in which they are retracted within said locking cylinder and escapes the reach of the receiving means. According to a preferred embodiment, said locking cylinder comprises a sleeve, said sleeve having a radial housing for radially guiding said translation stop means. It will be explained in more detail in the following description that the sleeve also has an axial housing located in front of the radial housing, to receive the stator of the locking cylinder. Furthermore, the axial housing and the radial housing communicates with each other to allow the passage of the eccentric. The latter in the form of pin engages with the stop means forming a bolt. In addition, said sheath advantageously has side windows opening into said radial housing, said at least one latch being adapted to extend through said side windows to maintain said stop means extended in said unlocked position. Preferably, said stop means has a transverse housing adapted to receive said at least one latch so that said at least one latch is housed inside the transverse housing and the radial housing and that it is capable of extend through the side windows from the transverse housing. In this way, it slidably locks the stop means in the radial housing.

Preferably, said rotational locking means comprise two opposing bolts connected together by a return spring, said two bolts being movable between a close position in which they are housed in said transverse housing and a spaced apart position in which they project. said stop means. Thus, the two locks are kept close to one another and in their inactive position while the return spring is compressed, when said stop means extend in a position corresponding to the locked position of the rotor and also when the stop means extend in a position corresponding to the unlocked position ~ o rotor, but the locking cylinder is still engaged in the receiving means. On the other hand, when the two mechanical members are spaced apart from each other, the locking cylinder leaves its receiving means and thus the two latches spaced apart by the return spring that relaxes, then extend through the side windows] s to lock the translation stop means in a position where they are retracted. According to another aspect, the present invention proposes a locking device with an articulated handle for holding an extended leaf inside a frame, said device comprising on the one hand a base comprising a mechanical member, intended to be applied on said leaf and locking means installed on said base and secondly, a shaft rotatably mounted through said base and secured to said locking means and a handle pivotally mounted on said shaft about an axis perpendicular to said shaft for actuating said locking means, said handle 25 having a free end opposite said shaft forming another mechanical member, said free end being equipped with a locking mechanism as described above, said handle being pivotally movable between a close position of said base, wherein said locking cylinder is received in said means for receiving and an intermediate activation position spaced from said base, wherein the locking mechanism is free relative to said base, said handle being capable of being rotated from said intermediate activation position in which said locking means are in a locked position in said frame, to an activated position by rotating said shaft to carry said locking means in an unlocked and free position relative to said frame. Thus, the aforementioned locking mechanism is easy to implement on an articulated handle locking device. Also, the present invention relates to an articulated handle locking device, for maintaining a locked leaf in a fixed position inside a frame. In addition, the locking device further comprises locking means adapted to come to block said shaft in rotation when said locking means are in said unlocked position, and said leaf is located outside said frame to prohibit rotation said handle to said intermediate activation position. Thus, a feature of the invention also lies in the implementation of the locking means which comes to block the rotating shaft and therefore the handle, since the leaf 15 is not closed and does not extend inside the frame. Thus, the handle having been previously removed from the base and driven in rotation relative to this base so as to control the locking means and release the striker, it can be driven in the opposite direction only to the condition that the leaf is in the closed position in the frame. In this way, even if the handle would be pivotable in order to be brought closer to the base, the locking mechanism would not be able to engage the base in the housing provided for this purpose, since the handle not extend next to the base. Consequently, such a device completely excludes the locking means and the locking mechanism from returning to a locked and non-controlling state, respectively, and without the leaf being applied to the frame. According to a particularly advantageous embodiment of the invention, said blocking means comprise detection means intended to be driven in motion by means of said shaft, and said detection means cause said shaft to escape from said blocking means. when said detection means detect the presence of said frame. In this way, the locking means are actuated by purely mechanical members, and in particular by virtue of the detection means which are controlled in motion by means of the shaft, and when the detection means detect the presence of the frame by coming in contact with an element thereof, the locking means are not activated. However, since the detection means detect no obstacle, while they are driven in motion through the shaft, the locking means are activated. The shaft then engages in these locking means and is therefore locked in rotation. Advantageously, said detection means comprise a drive plate mechanically linked to said shaft for driving in movement said drive plate when the shaft is rotated by ~ o through the handle. The detection means also comprise a detection plate slidably mounted against said drive plate, which detection plate is adapted to come into contact with an obstacle secured to the frame. In addition, said detection means preferably comprise means for translational coupling of said plates, so that the drive plate can drive in translation during its travel, the detection plate. As will be explained in more detail in the following description, the detection plate is held in position against the drive plate by elastic return means. Preferably, said drive plate has a rack, while said shaft is provided with a toothed wheel adapted to engage in said rack to drive said plate in translation when said shaft is rotated. Thus, the drive plate is driven in translation in a direction substantially perpendicular to the shaft. And the drive plate is able to drive by the same, the detection plate. The latter advantageously has a locking end for locking the shaft in rotation, and opposite an active end adapted to abut against an obstacle secured to said frame, while said shaft is equipped with a radial stop which s' extends radially from said shaft, said radial stop being intended to engage said locking end to lock said rotating shaft when said active end encounters no obstacle. On the other hand, during the movement of the drive plate, when the active end of the detection plate detects an obstacle integral with the frame, meaning that the leaf has been folded back into the frame, the detection plate is immobilized. And thus, its locking end is stopped at a distance away from the shaft, so that the radial abutment, close to the shaft, and continuing its escape escapes the locking end. Thus, the handle can return to its intermediate activation position and then be pivoted against the base. According to a preferred embodiment, said plates have an oblong recess that said shaft passes through. Thus, the active end of the detection plate is diametrically opposite to the locking end relative to the shaft. In addition, the rack is formed inside the oblong ~ o recess of the drive plate and the toothed wheel engages the rack in the center of the oblong recess. Moreover, and according to another embodiment of the invention that is particularly advantageous, said locking mechanism comprises a key locking cylinder and means for imprisoning said key to lock said key in said locking cylinder when said locking mechanism is free with respect to said base. Thus, the locking device according to the invention is capable of being condemned by means of the locking cylinder key and therefore it allows to prohibit access to the opening obstructing the door. In addition, since the key has been introduced into the locking cylinder to unlock the locking mechanism, and cause the pivoting handle spaced apart from the base, said key is locked in the locking cylinder which is itself secured. the free end of the handle. Also, the key is captive, as long as the handle has not been folded against the base, the locking mechanism 25 engaged in the base. However, as shown above, such a possibility is offered only if the leaf extends into the frame and the locking means are engaged in this frame. Preferably, said locking cylinder has a stator and a rotor adapted to receive said key for driving said rotor inside said stator, 3o said rotor being adapted to cause the retraction of a bolt when said key is rotated with said rotor in an open position so as to release said locking mechanism of said base. In addition, said imprisonment means comprise a stop latch for locking said rotor and said key in said open position when said locking mechanism is released from said base. As will be explained below in more detail, the locking latch advantageously lock in translation the bolt which itself immobilizes the rotor in rotation, so that the key is made prisoner of the locking cylinder.

It will be observed that the locking device defined above could be implemented independently of the locking mechanism. Other features and advantages of the invention will become apparent on reading the following description of a particular embodiment of the invention, given by way of indication but not limitation, with reference to the accompanying drawings in which: 1 is a cutaway view schematically showing the object of the invention from the side and in a first position; FIG. 2 is a diagrammatic side view of the object of the invention illustrated in FIG. a second position; FIG. 3 is a diagrammatic front view of the object of the invention shown in FIG. 2 and in a third position; FIG. 4 is a diagrammatic exploded perspective view of the object of the invention as shown in Figure 1; Figure 5 is a schematic rear view of the object of the invention shown in Figure 3 in a fourth position; - Figure 6 is a schematic detail view of the object of the invention as shown in Figure 5, in a fifth position; and Fig. 7 is a schematic detail view of the object of the invention shown in Fig. 2. A locking device including the locking mechanism will be first described and then described in more detail this mechanism of locking. conviction. Figure 1 illustrates from the side, a locking device 10 according to the invention. It is here in a locking position and comprises a base 12 mounted in the flange of a leaf schematically represented by a vertical plane P. The base 12 which extends longitudinally in the edge comprises a handle 14, and which is in a close position and recessed in the base 12. The handle 14 is pivotally mounted in the base around an axis O, perpendicular to the base 12 and which extends in its upper end 15, as it will be explained below. The locking device 10 comprises locking means 16 located behind the base 12 and they comprise in particular a cam 18 and two opposite rods, an upper bead 20 and a lower bead 22 intended to respectively join the locking members. In addition, the handle 14, in its lower end 23, is equipped with a locking mechanism 24 forming the subject of the invention and which appears in the cutaway portion of FIG. 1. It comprises a locking cylinder 26 keys. The locking mechanism 24 is intended to engage inside a housing 27 so as to secure the two movable mechanical members with respect to each other that are, the lower end 23 of the handle 14 and the lower part of the base 12. The locking cylinder 26 comprises a stator 28 and a rotor 30 for receiving a key 32 for driving the rotor in rotation inside the stator 28. As it is will explain below in more detail, the rotation of the rotor, controlled by the key 32, causes the drive is translation stop means consisting of a bolt 34, down the arrow F in a retracted position. The bolt 34 then driven in this retracted position, the handle 14 is adapted to be driven in turn, pivoting about the axis O to be removed from the base 12 as shown in Figure 2. It will be explained below in more detail the mode of operation of the locking mechanism 24. Referring to FIG. 2, which illustrates the locking device 10 in side view, in a view opposite to that of FIG. 12 and the handle 14 in an intermediate activation position where the locking mechanism 24, extracted from its housing 27, is disengaged from the base 12. In this position, the lower end 23 of the handle 14 opposite to the pivot axis O is free relative to the base. It will also be observed that in this position, the key 32 is kept rotated by a quarter of a turn with respect to its insertion position as represented in FIG. 1. The following description will be described in the following: detail, particularly with reference to Figure 7, this feature. Thus, in the intermediate activation position as shown in FIG. 2, the handle 14 will be able to be rotated about an axis of rotation A towards an activated position.

FIG. 3 shows the locking device 10 in accordance with the invention on which the handle 14 has been rotated in a direction opposite to that of the hands of a clock, at an angle close to 45.degree. relative to its initial position to be carried in the activated position. This Figure 3, the presence of a keeper 36 secured to a frame not shown. Furthermore, it will be noted that in this activated position of the handle 14, the cam 18 has also been driven in rotation by 45 ° to come over the striker 36. Reference is now made to FIG. The arrangement of the various elements described above appears clearly but in addition, or other elements are shown and allow the operation of the locking device 10. Thus, we find exploded and in view three quarters rear this locking device 10. Regarding the elements already described, there is the base 12 and back the locking means 16, is particularly the cam 18 and the two rods 20, 22. In front of the base 12, there is the handle 14 and the locking cylinder 26 adapted to be secured to the handle 14, through the lower end 23. There is also the housing 27, which is likely to be covered back of the base 12 by means of a protective cover 38. Furthermore, appear in this Figure 4 new elements adapted to be housed in a guide block 40 fitted behind the base 12. Thus, according to the rotation axis A, from the handle 14 to the cam 18, appears a shaft consisting of a plurality of parts. The shaft comprises a first connecting piece 42 having a trunnion portion 44 intended to be engaged 25 through the base 12 in a sliding bearing 46 located at the entrance of the guide block 40. In contrast, the piece link 42 has a free end 48 in which is formed a transverse bore substantially perpendicular to the axis of rotation A and on which the handle 14 is pivotally mounted by means of a pin for example. The trunnion portion 44 is extended by a first square head 50 adapted to extend within the guide block 40. Next, a pinion gear 52 having a central square hole 54 is intended to be applied against the connecting piece 42, engaged on the square head 50. In addition, the rods 20, 22 which respectively extend in sliding manner in the passageways 56, 58 each have a row of orifices 60, 62 in which the pinion rod 52 engrene to drive them in translation in opposite directions. Then, a transmission piece 64 forming an output gear, has upstream, a second square head 66 adapted to engage inside the pinion pinion 52, and downstream a third square head 68 for crossing a lid 70 of the guide block 40 by a central orifice 71, to receive in engagement, the cam 18. All these elements forming the axis, with the exception of the rods 20, 22, are held together by means of a fixing screw axial 72 which passes through them and which is adapted to be screwed axially inside the connecting piece 42 ~ o center of the first square head 50. In addition, the transmission part 64, constituting a part of the shaft , is provided with a toothed wheel 74 on which is engageable integrally a semicircular wafer 76 forming a radial abutment. This semicircular wafer 76 is engaged on the teeth of the toothed wheel so as to be rotatably connected to the transmission part 64. Moreover, the transmission part 64 has a shoulder 78 that a lateral face of the teeth of the wheel toothed 74 comes to join. In addition, said semicircular wafer 76 abuts against the shoulder 78. And, while the teeth extend axially away from the shoulder 78 and beyond said wafer 76, because the width of the teeth is greater than the thickness of the wafer 76, the latter extends radially beyond the free end of the teeth. As will be explained below, the semicircular wafer 76 has a free end 80 forming a precise stop and which extends radially beyond the free end of the teeth. In addition, the locking means 16 comprise detection means comprising a detection plate 84 forming a probe and back, a drive plate 82. These plates 82, 84 are of the same jig and they are adapted to slide transversely inside the guide block 40 along a transverse axis T perpendicular to the axis of rotation A. They are able to slide not only with respect to the guide block 40 but also with respect to each other along the same transverse axis T and under conditions that will be described below. The plates 82, 84 have a first recess 86 and a second recess 88 which extend transversely respectively inside and through which the transmission piece 64 passes.

The detection plate 84 has a rear face 89 and outside, an active end 90 terminated by a first free return 92 facing away from the rear face 89. Opposite the active end 90, the detection plate 84 has on the outside, a second central return 94, oriented opposite the rear face 89 and against which can come to bear a helical spring 96, which is housed inside the block of guide 40 to be compressed. In addition, on each side of the second central return 94, the detection plate 84 has two rearward returns 98, 100. Inside the detection plate 84, the first oblong recess 86 has, on the opposite side to the end 90, a lower recess 102 intended to form an upper vertical stop 104. It will be observed that in operating position of the locking means 16, the semicircular wafer 76 extends inside the first oblong recess 86 to the right of the detection plate 84. 1s The drive plate 82 is intended to bear against the rear face 89 of the detection plate 84. It has at one outer end, a contact bolt 106 able to come into contact with the device. view of the active end 90, and at the other outer end, a bearing edge 108 adapted to come to bear within the two rearward returns 98, 100 of the detection plate 20. In addition, the drive plate 82 has on an upper inner edge of the oblong recess 88, a rack 110 in which is adapted to engage the toothed wheel 74 of the transmission part 64. Thus, the transmission part 64 is capable of driving in translation the drive plate 82 and the detection plate 84, is itself held in transverse support against the drive plate 82, and in a direction that extends from the edge of support 108 to the contact bolt 106, through the two backs return 98, 100 and the coil spring 96 which bears against the second central return 94. Furthermore, it will be observed that the cover 70 of the guide block 40 3o has a vertical side slot 112 formed on the side of the active end 90 and the contact latch 106 respectively of the detection plate 84 and the drive plate 82. Also found in this FIG. 4, the striker 36 shown in FIG. 3. This striker 36 has a fixing plate 114 intended to be fixed inside the frame, and a free return 116 inside which a vertical light 118 is formed and which ends with a free edge 120 along the vertical lumen 118. When the flap is folded inside the frame, the free return 116 of the striker 36 is housed inside the guide block 40 and passes through the vertical side slot 112. Moreover, we find in Figure 4, the locking mechanism 24 and the locking cylinder 26 equipped with its stator 28, which is adapted to be engaged axially inside a sleeve 122, in an axial housing before 124 of this sleeve 122. Furthermore, at the end of the axial housing lo before 124, the sleeve 122 comprises a radial housing 126 adapted to receive the bolt 34 and two opposite side windows 128,130 opening into the box 126. The bolt 34 has a transverse slot 132 in which is adapted to extend an eccentric pin 134 secured to the end of the rotor 30 which extends inside the stator 28. In contrast to 132, the latch has a transverse housing 136 adapted to receive transversely sliding, two opposite latches 138, 140 and a return spring 142 compressed between the two latches. The two latches 138, 140 are adapted to extend respectively through the side windows 128, 130 under conditions that will be described below. In addition, around the housing 27 of the base 12, there appears, in the upper part of the housing 27, a stop keeper 144 and in the lateral edges of the housing 27, two opposite guide bearing surfaces 146, 148. With respect to the relative position of the elements illustrated in FIG. 4, where the locking device 10 is in a locking position as illustrated in FIG. 1 and, disregarding the burst, the relative position of these elements 3 is the following: the handle 14 being rotatably connected to the connecting piece 42, and since it has been rotated in the opposite direction of that of the clockwise, according to the view of FIG. 3, the pinion pinion 52 has also been rotated in the same direction, which has caused the rods 20, 22 to be driven towards each other; this has also induced the rotation in the same direction of the transmission part 64 and therefore the translation of the drive plate 82 in an oriented direction, its contact bolt 106 to its support edge 108; at the same time, the detection plate 84 has been driven with the drive plate 82, the bearing edge 108 bearing precisely against the inside of the two rear return elements 98, 100, which has, by the same, compressed the helical spring 96 and finally, the cam 18 has been rotated by the same angle as the handle 84. s Furthermore, it will be observed in FIG. 3, in the background of the housing 27 and the opposite guide bearing surfaces 146, 148, the protective cover 38 equipped inside two opposite lateral ribs 150, 152. It will be explained the function of these two ribs in the following description. Thus, in the position as shown in Figure 3 except the presence of the striker 36, and described above, and to the extent that the leaf does not extend inside the frame and where therefore the free return 116 of the striker 36 is located outside the guide block 40, if it starts to drive the handle 14 in rotation in the direction of clockwise so as to drive it to its intermediate position d activation, it is then also caused to rotate the transmission part 64 and therefore drive in translation of the drive plate 82, in the direction of its bearing edge 108 towards its contact bolt 106. , the detection plate 84 is also driven in translation in the same direction, since it is driven transversely through the helical spring 96 against the drive plate 82, which causes concomitantly, the drive translation in translation of the vertical stop 104 of the lower recess 102, to the transmission part 64. Furthermore, the rotation of the transmission part 84 also produces the rotation of the semicircular wafer 76 in the same direction of rotation and precisely, the 25 circular movement of the free end 80 which then abuts against the vertical stop 104 as shown in Figure 5. As a result, the handle 14 is locked in rotation in its position close to the activated position and still distant from the activation position. Thus, the plates 82, 84, the transmission part 64 and the semicircular wafer 76 constitute locking means 30 able to cause rotation locking of the handle 14 during their relative movement. In this way, when the leaf is not folded inside the frame, the drive of the handle 14 to its intermediate activation position is prohibited and therefore the pivoting of the handle 14 to the base 12 does not does not activate the locking mechanism 24.

And it will also be observed that the key 32 illustrated in FIG. 3 remains trapped in its rotor 30. On the other hand, when the leaf is folded back inside the frame, the rotation of the handle 14 towards its intermediate activation position, as shown in Figure 2 is possible. Indeed, the handle 14 as shown in Figure 3 is thus rotated in the direction of clockwise, while the leaf is located inside the frame and therefore the free return 116 of the keeper 36 passes through the vertical lateral slot 112 to extend inside the guide block 40, facing 10 of the contact bolt 106 and the active end 90. Thus, if the handle 14 begins to be driven into rotation, from this position shown in Figure 3, the plates 82, 84 are driven by the same in translation in an oriented transverse direction of the bearing edge 108 towards the contact bolt 106 of the drive plate 82. During this translation, while the contact bolt 106 engages the vertical slot 118 of the striker 36, the first free return 92 of the detection plate 84 abuts against the free edge 120 of the keeper 36 In this way, the detection plate 84 is locked in translation, while the rotation of the handle 14 is able to continue the rotational drive of the transmission part 64, and therefore the translation of the drive plate 82. Indeed, the detection plate 84 being blocked, its vertical stop 104 of the lower recess 102 remains in a position spaced from the transmission part 64 and therefore the free end 80 of the semicircular wafer 76 which is also rotated, escapes the Reaching the vertical abutment 104 as it continues to travel as shown in Figure 6. In this way, the drive plate 82 is translationally and slidably driven against the detection plate 84. As a result, the handle 14 is able to be rotated by continuing its stroke to the intermediate activation position located opposite the base 12 and as shown in FIG. 2. The return of the handle 14 in this position is allowed on the sole condition that the leaf is folded into the frame so that the striker 36 and in particular the free return 116 extends inside the guide block 40. In this position, the handle 14 can then be pivoted to the base 12 in order to carry the locking mechanism 24 inside the housing 27 as illustrated in Figure 1. The key 32 can then be rotated by a quarter turn to return to its original position to be removed from the rotor. Indeed, the key 32 can be removed from its rotor only on the condition that the locking mechanism 24 is extended inside the housing 27. It will be explained in more detail the operating mode of the means for The key 32 within the rotor 30 is locked in the light of FIGS. 1, 2, 4 and 7. The locking cylinder 26 as shown in FIG. 1 is in a locked position, where, if Referring to Figure 4, the bolt 34 extends behind the stop striker 144 to prohibit the pivoting of the handle 14 in a position away from the base. In this position, the key 32 has not yet been introduced into the rotor, and the bolt 34 projects from the sleeve 122 and thus from the radial housing 126 while the two locks 138, 140 Is are kept close together. one of the other and the spring 142 compressed, inside this radial housing 126. It will be observed that the two latches 138, 140 are then in abutment against the opposite inner walls of the radial housing 126. When the key 32 is introduced into the rotor, it is adapted to be rotated, which causes the rotation of the eccentric pin 134 and 20, the retraction of the bolt 34 inside the radial housing 126. Concomitantly, the two opposite bolts 138, 140 are slidably driven against the opposite inner walls and extend opposite the side windows 128, 130 without, however, penetrating therein because the opposed latches 138, 140 are held in their positions by means of the two longitudinal members. On the other hand, since the handle 14 is pivotally driven towards its intermediate activation position as shown in FIG. 2, the key 32 is held in rotation so that the handle 14 is rotated towards its intermediate activation position as shown in FIG. bolt 134 can be released from the stop striker 144, while the opposing latches 138, 140 escape the range 30 of the opposite lateral ribs 150, 152 and move away from each other by virtue of their spring 142 and penetrate respectively inside the side windows 128, 130 as shown in Figure 7. In this way, the bolt 34 is held locked in translation within its radial housing 126 and thus the eccentric pin 134 is blocked in rotation within the transverse slot 132 which makes it possible to lock the rotor 30 in rotation inside the stator 28. Thus, since the locking cylinder 26 is clear of the housing 27, the key 32 is hand held in rotation. Moreover, in this position, the key 32 can not be extracted from its rotor. Because the only position in which the key 32 can be returned from the rotor is that where the bolt 34 is again projecting from the radial housing 126. This mechanism makes the key 32 captive. Conversely, when the locking cylinder 26 is reintroduced inside the housing 27, the locks. 138, 140 have beveled front ends which respectively abut against the two opposite lateral ribs ~ o 150, 152 of the protective cover 38. Continuing the pivoting of the handle 14 and therefore, the introduction of the locking cylinder 26 in the housing 27, the locks 138, 140 come closer to each other and retracts through the side windows 128, 130 to be housed inside the radial housing 126. In this way, the bolt 34 can again resume its position engaged in the stop striker 144 and, concomitantly, the key 32 and the rotor 30 return to their original position. In this position, the key 32 can be extracted from the rotor 30.

Claims (16)

REVENDICATIONS1. Locking mechanism (24) captive key for securing two movable mechanical members relative to each other, said s locking mechanism comprising a locking cylinder (26) adapted to be installed on one of said mechanical members and receiving means (38, 150, 152) of said locking cylinder (26) adapted to be installed on the other mechanical member, said locking cylinder (26) comprising, on the one hand, a stator (28) and a rotor (30) rotatably mounted within said stator, and secondly stop means (34) adapted to extend in a locked position in said receiving means (38, 150, 152) when the two mechanical members are brought closer to one another, said rotor (30) having, a key inlet able to receive a key (32) and, on the opposite side, an eccentric (134) integral with said means for said key being intended to be engaged within the said rotor (30) when said stop means (34) extends in said locked position and is driven to cause movement of said stop means to an unlocked position, said lock cylinder (26) comprising a on the one hand, extraction locking means for retaining said key within said rotor when said rotor is in a position corresponding to said unlocked position and secondly, rotation locking means (128, 130, 138, 140 ) to lock said rotor in rotation when said locking cylinder is spaced from said receiving means, (38, 150, 152) and so as to trap said key inside said rotor when the two mechanical members are separated one of the other ; Characterized in that said rotational locking means (128, 130; 138, 140) comprise at least one latch (138, 140), said at least one latch being adapted to hold said extended stop means (34) thereon in said unlocked position, for rotatably locking said rotor (30) through said eccentric (134). 30 2. Locking mechanism according to claim 1, characterized in that said at least one latch (138, 140) is controllable between an active position where it maintains said stop means (34) extended in said unlocked position and an inactive position where it releases said stop means (34). 3. Locking mechanism according to claim 2, characterized in that said at least one latch (138, 140) is controlled from said inactive position to said active position, when the two mechanical members are spaced apart from each other and said locking cylinder (26) leaves said receiving means (38, 150, 152). 4. Locking mechanism according to any one of claims 1 to 3, characterized in that said stop means (34) are movable radially in translation between said locked position in which they extend radially projecting from said locking cylinder (26) and said ~ o unlocked position in which they are retracted within said lock cylinder (26). 5. Locking mechanism according to claim 4, characterized in that said locking cylinder (26) comprises a sleeve (122), said sleeve having a radial housing (126) for guiding said stop means (34) in translation . 6. Locking mechanism according to claim 5, characterized in that said sleeve (122) has side windows (128, 130) opening into said radial housing (126), said at least one latch (138, 140). being able to extend through said side windows to maintain said stop means (34) extended in said unlocked position. 7. Locking mechanism according to any one of claims 1 to 4, characterized in that said stop means (34) has a transverse housing (136) adapted to receive said at least one lock (138, 140). 25 8. Locking mechanism according to claim 7, characterized in that said rotational locking means comprise two opposed locks (128, 130) connected together by a return spring (142), said two locks being movable between a close position in wherein they are accommodated in said transverse housing (136) and a spaced apart position in which they project from said stop means (34). 9. An articulated handle locking device for holding an extended leaf inside a frame, said device comprising on the one hand a base (15) comprising a mechanical member, intended to be applied on said leaf and means of lock (16) installed on said base and on the other hand, a shaft (42, 52, 64) rotatably mounted through said base and secured to said locking means (16) and a handle (14) pivotally mounted on said shaft around an axis perpendicular to said shaft for actuating said locking means, said handle (14) having a free end (23) opposite said shaft forming another mechanical member, said free end being equipped with a locking mechanism (24) according to any one of claims 1 to 8, said handle (14) being pivotally movable between a position close to said base (15), wherein said locking cylinder (26) is u in said receiving means (38, 150, 152) and an intermediate activation position spaced from said base, wherein the locking mechanism (24) is free with respect to said base (15), said handle (14) ) being rotatable from said intermediate activation position in which said locking means (16) is in a locked position in said frame, to an activated position by rotating said shaft (42, 52, 64) for carrying said locking means in an unlocked and free position relative to said frame. 10. Locking device according to claim 9, characterized in that it further comprises locking means (76, 82, 84) adapted to come to block said shaft (42, 52, 64) in rotation when said means of locking (16) are in said unlocked position, and said leaf is located outside said frame to prohibit rotation of said handle (14) to said intermediate activation position. Locking device according to claim 10, characterized in that said locking means (76, 82, 84) comprise detecting means (84, 90) for being driven in motion through said shaft (42). , 52, 64), and in that said detection means cause said shaft to escape from said locking means, when said detection means detect the presence of said frame. 30 12. Locking device according to claim 11, characterized in that said detection means comprise a drive plate (82) mechanically connected to said shaft (76, 82, 84) and a detection plate (84) slidably mounted. against said drive plate. 13. Locking device according to claim 12, characterized in that said detection means (84, 90) comprise translational coupling means (89, 96, 98) of said plates. 14. Locking device according to claim 12 or 13, characterized in that said drive plate (82) has a rack (110), while said shaft (42, 52, 64) is provided with a toothed wheel ( 74) adapted to engage said rack to drive said plate (82) in translation when said shaft is rotated. 15. Locking device according to any one of claims 12 to 14, characterized in that said detection plate (84) has a locking end (104) and opposite an active end (90) able to come in abutment against an integral obstacle of said frame, while said shaft is equipped with a radial abutment (80) which extends radially from said shaft, said radial abutment being intended to engage said locking end (104) for blocking said shaft in rotation when said active end (90) encounters no obstacle. 16. Locking device according to any one of claims 12 to 15, characterized in that said plates (82, 84) have an oblong recess (86, 88), said shaft (42, 52, 64) being intended for s extend through the oblong recesses of said plates.