FR3012503A1 - DEVICE FOR LOCKING AND UNLOCKING AN OPENING - Google Patents

Abstract

The present invention relates to a device for locking and unlocking (2) an opening in a fixed frame, of the type comprising a shell (20) housing means for transforming the translational movement of an operating member (26), accessible to the user by a light (154) formed in the shell, in a rotational movement of a control square (12) for locking about an axis perpendicular to the axis of translation of the operating member . These transformation means comprise a groove (82) formed in the operating member movable in translation and a driving pin (96) integral with said square and arranged in axial projection thereof so as to be received in the groove said pin being eccentric with respect to the axis of rotation of the square while said groove is arranged inclined with respect to the axis of translation of the operating member.

Description

The present invention relates to a device for locking and unlocking an opening, and more particularly to such a device for a leaf sliding in a fixed frame. In known manner, the locking devices comprise a lock housing which is embedded in a housing formed in the opening and which encloses a mechanism of the espagnolette type adapted to transform a rotation movement generated by a control square into a translation. on itself a rod along an amount of the opening, this rod is also carrying 10 bolts adapted to cooperate with latches formed in the frame. The rotation of the control square can be created by the rotation of a control handle engaged on the square and arranged projecting from the sash to be actuated by the user 15 to lock or unlock the sash. The torque to exercise to drive the square in rotation is relatively small. However, this type of device has the disadvantage that the handle projecting beyond the plane of the leaf and this may be inappropriate for application in a sliding leaf, the handle being able to obstruct the smooth sliding of the leaf. Thus, when it is desired to integrate a locking and unlocking device in a sliding leaf, the use of a shell integrated in the volume of the leaf jamb is preferred. These shells house an operating knob 25 slidably mounted on the shell body and adapted to drive in translation the rod integral with the movement of the button. Thus, no element protrudes projecting from the plane of the leaf, but these devices may require a significant effort for the drive in translation of the rod in the same direction as the button. It has subsequently been desired to combine the control button operating shell with the cremone and rotary control mechanism. Document FR 2 892 139 discloses the use of an operating shell, in which the operating knob has projecting means engaged around a peg integral with a driving square of a housing pinion. lock control. The translation of the operating knob rotates the square and the pinion of the control box in which the square is engaged at its free end, and thus to achieve locking and unlocking the sliding leaf relative to the frame. The present invention is in this context and aims to provide an alternative to the locking and unlocking devices of the prior art. For this purpose, the invention proposes a device for locking and unlocking an opening in a fixed frame, in which an actuating member allows the rotation of a control square of a cremone for locking in translation. and unlocking the opening. The device comprises a shell formed of a base adapted to be pressed against the amount of the opening and a closure cover of this base. This shell houses the operating member which is mounted to move in translation in the shell so as to be accessible to be manually operated through a hole in the lid. It also houses, at least partially, the control square which is arranged so as to pass through the base of the shell to be connected to the espagnolette, and it also houses means for transforming the translational movement of the operating member in a rotational movement of the square about an axis perpendicular to the axis of translation of the actuating member. According to a characteristic of the invention, these transformation means comprise a groove formed in the actuator mounted to move in translation and a driving pin secured to said square and arranged in axial projection thereof so as to be received in the groove, said pin being eccentric relative to the axis of rotation of the square while said groove is arranged inclined with respect to the axis of translation of the actuating member. The operating member is mounted to move in translation between a first so-called locking position, in which the eccentric pin is in abutment against a first end of the groove, and a second so-called unlocking position, in which the eccentric pin is in abutment. against the opposite end of the groove.

Thus, via the ramp form of the groove and the eccentric position of the drive pin integral with the square, a large operating stroke is allowed to force the quarter turn required to move from the locking position to the unlock position. This maneuvering stroke reduces the effort required to the user to move from one position to another. According to a particular characteristic of the invention, the slope of the groove relative to the axis of translation of the operating member carrying this groove is smaller at its ends than in its intermediate portion. It can be provided that the end portions have an inclination relative to the axis of translation of the operating member which is substantially equal to 15 °, while the intermediate portion has an inclination relative to the translation axis. of the operating member which is substantially equal to 30 °. Here again, it is a question of reducing the effort required of the user, and more particularly of reducing the effort required to initiate the locking and unlocking movement. According to one characteristic of the invention, the various components of the device are stacked so that the operating member is axially guided in the shell so as to slide along the cover, and the square has a bearing head of said eccentric pin which is disposed between the base and the operating member, said groove being formed on the inner face of the actuating member, facing the base of the shell. The operating member comprises a guide portion which carries the groove adapted to cooperate with the pin integral with the square, and an actuating portion accessible from outside the shell, this actuating portion being able to carry guiding means adapted to cooperate with complementary means carried by the base. Thus, it is ensured that the operating member moves strictly in translation, which facilitates the creation of a rotation torque of the control square. According to characteristics specific to a particular mode of implementation of the invention, the shell may furthermore accommodate expansive means for fixing said shell to the opening leaf, adapted to be deployed along an axis parallel to the axis of translation. of the actuator. These expandable means comprise a pair of flanges carrying at their opposite end snap-fit means adapted to cooperate with complementary means formed in the opening, and an expander disposed between the flanges and adapted, under the effect of a tightening against the base of the shell by screwing, to separate them from one another so that the expandable means take an expanded position in which the shell is fixed in the amount of opening. Thus the fixing of the shell in the opening with a minimum of screws, only a clamping screw of the expander is necessary. The expander is adapted to receive a clamping screw to make the spacing of said flanges, and advantageously this expander comprises on one side by which the screw is inserted a countersink of appropriate dimensions so that the screw head is embedded in the thickness. the expander, out of the translation path of the actuator.

The invention will now be more fully described in the context of preferred features and their advantages, with reference to Figs. 1 to 6 in which: - Fig. 1 is a perspective view of a locking and unlocking device according to the invention and an associated linkage assembly, adapted to be mounted and fixed in the amount of a sliding leaf; - Figure 1b is a view similar to Figure 1 and wherein the sliding leaf is partly shown; FIGS. 2 and 3 are sectional views of the locking and unlocking device assembled and mounted in a sliding leaf, respectively in an expanded position and in an initial position; - Figure 4 is a perspective representation of the elements constituting the locking and unlocking device, these elements being shown in an exploded view, before assembly; FIG. 5 is a view equivalent to that of FIG. 4, seen from below; and FIGS. 6 and 7 schematically represent the operation of means for transforming a translation of a first element of the device into a rotation of a second element of the device according to the invention, illustrating the device in a lock position and an unlock position. In the description which follows, reference will be made to an orientation along the longitudinal, vertical and transverse directions of the L, V, T trihedron shown in FIG. 1. In this description, the translation of the rod is vertical and one will understand that the arrangement of the elements of the device described below corresponds to this movement of the rod. As illustrated in FIGS. 1 to 3, a locksmith assembly 1 comprises a locking and unlocking device 2 according to the invention as it will be described later and fixed on an amount 4 of sliding leaf. The locksmith assembly also comprises a rod 6 carrying hooks 8 adapted to cooperate with latches 10 formed in the frame. In this way, the rod is mounted on the face of the leaf upright 25 which extends opposite the frame in which the leaf is adapted to slide longitudinally. The rod is adapted to slide along a door jamb under the action of a control square 12 adapted to cooperate with a control rod of the rod, housed in a housing 14 fixed in the volume of the amount of the leaf . In known manner, as is visible in Figures 1 to 3, the free end of the square engages in a bore 16 of complementary shape formed in a pinion 18 housed in the housing and the rotation of the square generates displacement. in translation of the rod by the effect of the espagnolette actuated by the rotation of the carrier pinion 35 of the complementary bore.

As illustrated in the figures, and in particular in the exploded representations in FIGS. 4 and 5, the locking and unlocking device comprises a shell 20, adapted to be attached to the jamb of the leaf, in particular formed from a base 22 housed in the thickness of the leaf and a cover 24 to close this base and disposed in front of the amount. The shell also houses an operating member 26, which extends mainly in a first direction, here vertical, and integrally in the volume defined by the shell, as well as a control square 12 which extends partially in the shell, crossing the base and extending in a second direction perpendicular to the first direction. In the illustrated embodiment, the shell further includes expandable means 30 for fixing the shell on the upright. The base 22 of the shell comprises, from one vertical end to the other, a first plate 32 for fastening to the lid, a tank 34 for receiving, a vertical guide zone 36, and a second plate 38 for fastening to the lid . The receiving vessel, adapted to receive the operating member as will be described below, has at its vertical ends first rising walls 40 which form stops for the vertical movement of the actuating member and its transverse ends of the second rising walls 42 which form a vertical guide path of the operating member. The vessel has a transverse dimension substantially equal to the transverse dimension of said operating member, and a length determined to allow the translation of the actuating member between a first locking position and a second unlocking position of the opening. The guiding zone comprises a bottom wall 44 which extends in a vertical and transverse plane, extending the end of the rising wall opposite the first fixing plate, and it has two distinct functional zones, namely a central support portion 46 and a distal guide portion 48.

The guiding zone of the actuating member comprises two raised edges 50 which make it possible to prevent the transverse escape of the actuating member when it is attached against the bottom wall 44. As is visible on the Figures 4 and 5 in particular, the central support portion and the distal guide portion differ mainly by the height of the raised edges, more important in the distal guide portion. In the central support part, the bottom wall of the guide zone is hollowed out with a first receiving bore 52 of a clamping screw 54 of expansible fastening means. In the distal guide portion, the bottom wall has a second bore 56 allowing the passage of the square through the base. This bore is bordered by raised edges 58 on which is adapted to abut an upper flange of the square as will be described below. It is understood that the diameter of the bore allowing passage of the square is greater than or equal to the diagonal of the square so as not to hinder its rotation. An outer face 60 and an inner face 62 of the bottom wall are defined by the orientation of these faces relative to the cover 20 of the shell. The outer face of this bottom wall, that is to say the face opposite the cover of the shell, is provided with a pin 64 extending perpendicular projection of this outer face. The mounting plates disposed at the ends respectively have a bore 66 and 68 respectively for fixing the base by screwing onto the lid of the shell. The operating member comprises a plate 70 which extends forming a guide portion 72, substantially flat, and an actuating portion 74, which extends in the vertical extension of the guide portion, and which is here formed by a hollow portion 30 forming bowl 76. In this way, when the operating member is attached against the base of the shell, the guide portion 72 is adapted to rest on an upper flange of the control square 12 such that it will be described in more detail below, itself bearing on the raised edges 58 protruding from the guide zone 36 of the base, and the actuating portion 74 of the actuating member is adapted to come into the housing formed by the tank 34 of this base. A central bore 78 is disposed in the center of the actuating member to separate the guide portion and the actuating portion, and the role of this central bore 78 will be described below. the internal face 80 of the operating member 26, that is to say the face which is turned towards the base 22 of the shell, has a groove 82, made in the thickness of the operating member. This groove extends diagonally, so as to join a corner of the guide portion 72 diagonally opposite corner. As can be seen in FIGS. 4 and 5 in particular, this slot is blind, that is to say that it does not open onto the outer face of the operating member. It may be envisaged, without departing from the context of the invention, that this is the case. The slot disposed below the operating member advantageously has variable slopes from one end to the other of this slot. We can thus distinguish three parts, among which, successively, a first end portion 84 whose slope is inclined with respect to the direction of displacement in translation of the actuating member by an angle substantially equal to 15%, a intermediate portion 86 steeper, whose slope has an angle of about 30% with respect to this same direction of movement of the operating member, and a second end portion 88, inclined in the same way as the first end part. The square 12 has at a lower end 90, said free end, a polygonal shape adapted to cooperate with the pinion 18 mounted on the housing, and at an upper end 92, that is to say the end nearest the actuating member, a flange 94 on which is disposed in projection a pin 96 of diameter adapted to cooperate with the groove of the actuating member. This pin is disposed projecting away from the square with respect to the flange eccentrically with respect to the axis of the square. As will be explained later, this eccentric pin 96 and the groove 82 formed under the operating member form means for converting the translational movement of the actuating member into a rotational movement of the square. It is thus possible to convert the printed translation to this operating member into a rotation of the square to subsequently realize in a known manner, the locking and unlocking of the bolts by this square rotation via a linkage and a cremone present in the housing 14 lodged in the amount of the opening.

According to a particular embodiment of the invention, there is provided expandable means 30 for fixing the shell in the amount of the leaf. These expandable attachment means comprise two flanges 98, 99, substantially vertical and transverse, to be arranged along the base of the shell, and an expander 100 adapted to be inserted between these flanges and to force their spacing to snap at their opposite ends on the leaf jamb. A first flange 98 thus comprises, from one vertical end to the other, first latching means 102 carried by a first end portion 104 in which it is made transversely an oblong hole 106, a tank 108 of dimensions substantially equal to the dimensions of the tank 34 of the base, so as to be accommodated therein and to be able to receive the actuating portion 74 of the operating member 26, an adjusting portion 110 comprising deformable and axially compressible units and a second end portion 112 opposite the other flange which comprises a beveled portion 114. As can be seen in FIGS. 4 and 5, the actuating portion 74 of the actuating member presents in the bottom of its cuvette guide means 116 projecting protruding transverse adapted to cooperate with slots 118 formed in the transverse walls of the tray 108 of the first flange. In this way the operating member can not disengage transversely when it is engaged in the first flange and is guided vertically by sliding the guide means along the slots.

The second flange 99 comprises a third end portion 120, facing the first flange, which comprises in a manner similar to the second end portion a beveled tip 122, a passage zone 124 of the control square, in which the wall is pierced with an oblong shaped lumen 126, an adjustment zone 128 by compression similar to that of the first flange, and a fourth end portion 130 carrying second latching means 132 and also pierced with a oblong hole 134.

The expander 100 has a trapezoidal shape, comprising a small base 136 and a large base 138 connected laterally by inclined walls 140. The small base is turned towards the bevelled walls of the flanges, and towards the base of the shell, while the big base is turned towards the maneuvering organ and the lid of the shell. On each side of the large base, a transverse notch 142 is formed so that the expander has substantially four feet 144 each disposed at one of the corners of the large base. The trapezoid-shaped expander has a regular shape, so that it can be positioned indifferently at 90 °. In a rest position, the inclined lateral walls 140 of the expander come to rest on the bevelled portions 114, 122 of the flanges. The expander is further pierced axially from the large base to the small base by a bore 146, so that it leaves the passage to the clamping screw 54 mentioned above, forming a stop for the screw head. The tightening of this screw in a threaded bore 148, formed on the lock housing, generates the plating of the expander against the base and causes the spacing of the flanges away from one another so that the parts of opposite ends of each of the flanges snap into corresponding means 150 of the amount of the leaf, more particularly visible on the details associated with Figures 2 and 3. The cover 24 of the shell is adapted to be attached against the base 22 in housing the various components of the shell inside thereof. It comprises for this purpose two sleeves 152 which extend transversely under the cover so as to allow screwing of the cover on the base. The cover serves as a cover to protect the various components, however, having a light 154 formed vertically and transversely in this cover to allow accessibility for the user to the operating member and to further allow the passage of the screw 5 clamping through the shell. On its internal face, turned towards the inside of the shell, the falling edges protrude in transverse projection to form with complementary upright edges of the base male and female means facilitating the interlocking of the base and the shell before their fixing. by screwing, while ensuring a longitudinal stop particularly for the operating member. The cover further comprises means for abutment and guide the expander, which consist of two studs 156 protruding from the slot 154 formed in the cover. These studs 15 have a dimension substantially equal to the depth and width of the notches 142 formed in the expander 100. These means have a thread 158 for screwing from below fastening screws 160 for securing the base and the cover of the shell substantially in the center of it. Various stages of assembly of the locking and unlocking device according to the invention will now be described, among which the assembly of the various components of the shell and the attachment of this shell in the amount of the opening previously equipped with Known a locking linkage 25 comprising at least one rod connected to a cremone mechanism housed in the volume of the opening. The assembly of the shell 20 is made by stacking the various components transversely in turn. It will be understood that the following description is given by way of example and that the assembly could be done inversely, stacking one by one the components on the inner face of the shell. Here, each of the flanges 98, 99 is firstly arranged against the internal face 62 of the base 22. The first flange 98 is arranged in such a way that the tank 108 is housed in the receiving tank 34 of the base , and in this position, the first end portion of the first flange comes to rest against the first mounting plate 32, while the adjustment portion 110 of the first flange comes to rest against the bottom wall of the central portion of 46. The second flange 99 is arranged in such a way that the fourth end portion 130 rests against the second attachment plate 38, while the adjustment zone 128 and the passage area of the control square 124 are pressed against the bottom wall of the distal guide portion 48, with the raised edges 58 surrounding the second bore 56 which are housed in the oblong shaped lumen 126 of the second flange. The expander 100 is then disposed between the flanges, substantially in line with the first bore 52, so that the inclined walls 140 of the expander rest against the beveled tips 114 and 122 of the flanges. It may be noted that in this initial position, before clamping the components, the expander does not rest against the bottom wall of the base. The control square 12 is then threaded perpendicularly to the base, through the lumen 126 of the second flange and the second bore 56 of the base. The flange 94 of the square abuts against the raised edges 58 surrounding the second bore 56 and protrudes slightly from the plane of the passage area of the second flange, and the free end of the square protrudes beyond the other side of the flange. the base. It is ensured that the height of the raised edges and the thickness of the collar make it possible to generate sufficient transverse clearance for the flange to slide without rubbing against the flange of the square. The flanges, the expander and the square are then covered by the assembly previously formed by the operating member 26 and the lid 22 of the shell, joined so that the operating member is housed between the inner face of the cover and the projecting pads 156 forming the abutment and guide means of the expander. This assembly is arranged on the rest of the components of the shell by housing the sleeves of the cover in the oblong bores formed in the end plates of the base, so that the actuating portion 74 of the actuating member comes to lodge simultaneously in the tank 108 of the first flange and in the tank 34 of the base, with the projecting guide means which penetrate into the associated slots. The casing of the studs 156 in the notches 142 of the expander make it possible to ensure that the central bore of the operating member is positioned above the expander. It is ensured during this final assembly that the pin 10 projecting from the flange penetrates into the groove formed in the inner face of the guide portion of the actuating member, and successively screw fixing screws 161 by the below through the base in threads made in the sleeves and the screws 160 in the threads 158 of the studs 156. The shell is then housed in an opening 5 formed in the upright 4, matching, as shown in FIG. 2, the lower free end 90 of the control square with the corresponding polygonal hollow shape 16 of the housing 14 enclosing the cremone mechanism, and the protruding pin 64 with a corresponding indexing hole 162 formed in the housing. Finally finally fixed the shell in the opening amount by appropriate fastening means. In the embodiment described, the fastening means are formed by the expandable means, namely the flanges and the expander, as well as the associated clamping screw and the central bore formed in the base. Advantageously, the shell is positioned in the upright quickly and efficiently, without requiring too many screws. The final fixing of the shell 30 in the sash post is then described by the expansible fastening means. The shell is housed in the opening formed in the upright, in an initial position (visible in Figure 2) such that the central bore 52 is disposed opposite the threaded bore 148 formed in the lock housing. The tightening screw 54, the body 35 of which passes through the operating member 26, the expander 100 and the base 22, is screwed on. The screw head 55 presses against the large base 138 of the expander, the bore of which 146 has a diameter greater than that of the threaded body of the screw but lower than that of the screw head. The tightening of this screw thus generates the plating of the expander against the base and the spacing of the flanges from one another, by wedging effect between the inclined walls of the expander and the bevelled shapes of the flanges against which the expander was resting. This spacing of the flanges from one another makes the latching means of the end portions of the flanges unfold, along an axis parallel to the axis of translation of the actuating member, to come behind the wall the amount of opening. In this expanded position (visible in Figure 3), the wall of the sash jamb is clamped between the latching means and the inner face of the lid, thereby blocking the position of the shell relative to the amount of the opening in two directions. As can be seen in FIG. 3, after screwing on the clamping screw, the screw head is embedded in the thickness of the expander, by means of a countersink of suitable size and shape, so that the screw head does not protrude from the expander and does not hinder the translation of the actuator. At the end of the assembly, it is advantageous to have a cover 164 on the screw head for the aesthetics of the assembly. We will now briefly describe the operation of the locking and unlocking device of the opening in the embodiment shown, particularly with reference to Figures 6 and 7. Once the shell fixed in the amount of opening, the user can access the operating portion of the operating member by the light formed in the cover and force the translation of the actuating member, pushing it vertically upwards or downwards. The operating member can slide vertically between a first locking position and a second unlocking position. In the first locking position, the pin protruding from the control square abuts against a first end of the groove, while in the second unlocking position, the pin is in abutment against the second end of the groove. The translational movement of the operating member from one position to the other changes the relative position of the pin relative to the groove. The inclined disposition of the groove relative to the direction of translation of the operating member which carries the groove creates a force on the pin by contact thereof with the edges of the groove, and the eccentric position of the pin generates a torque of the control square around its axis. The dimension of the groove is such that the control square rotates a quarter of a turn when the operating member moves from the first locking position to the second unlocking position.

The foregoing description clearly explains how the invention achieves the goals it has set for itself. In particular, there is provided a locking and unlocking device with means for transforming a translation of an operating member into a rotation of a control square which is of the crank and slide type, in which the member maneuver directly forms the slide by producing the groove diagonally on its inner face facing the control square. The efforts to be made by the user to create a rotation torque of the control square are advantageously reduced by the inclined disposition of the groove with respect to the direction of translation of the operating member. These forces, which may be notable during the initiation of the translational movement of the actuating member, are all the more diminished if the groove has a particular shape in which the end portions are less strongly inclined with respect to the direction of translation of the actuating member as the central portion of the groove. It is in the middle of the movement, while it is initiated, that the effort on the pawn to rotate the square is the most important, without this being felt too strongly by the user.

Alternatively, it can be provided that the actuating portion takes the form of a button, substantially in the plane of the guide portion. Therefore, the base and the flanges have corresponding flat shapes, without receiving tank. It will be provided simply anti-escape means carried by the actuating portion for the vertical guidance of the operating member relative to the base of the shell. It nevertheless follows from the foregoing that the invention is not limited to the embodiments that have been specifically described and shown in the figures and that it extends on the contrary to any variant passing through means équivalents.10

Claims (10)

REVENDICATIONS1. Device for locking and unlocking (2) an opening leaf in a fixed frame, in which an actuating member (26) allows translational rotation of a control square (12) of a cremone for locking and unlocking the opening, of the type comprising a shell (20) formed of a base (22) adapted to be pressed against the upright (4) of the opening and a cover (24) for closing this base, said shell housing said actuator mounted movable in translation in said shell so as to be accessible to be manually operated through a slot (154) formed in said cover, and at least partially said control square arranged so passing through the base of the shell to be connected to said cremone, and means for converting the translational movement of the actuating member into a rotational movement of the square about an axis perpendicular to the axis of translation of the operating member, characterized in that said transformation means comprise a groove (82) formed in the actuator mounted to move in translation and a driving pin (96) integral with said square and arranged in axial projection of the latter so as to be received in the groove, said pin being eccentric with respect to the axis of rotation of the square while said groove is arranged inclined with respect to the axis of translation of the operating member. 2. Device according to claim 1, characterized in that the operating member (26) is mounted movably in translation between a first said locking position, wherein the eccentric pin (96) abuts against a first end of the groove (82), and a second so-called unlocking position, in which the eccentric pin abuts against the opposite end of the groove. 3. Device according to claim 1 or 2, characterized in that the inclination of the groove (82) relative to the axis of translation of the actuating member (26) is variable from one end of the groove to the other, so as to form three distinct parts of the groove including two end portions (84, 88) inclined lower than that of the central intermediate portion (86). 4. Device according to claim 3, characterized in that the end portions (84, 88) have an inclination relative to the axis of translation of the actuating member (26) which is substantially equal to 15 °, while the intermediate portion (86) has an inclination relative to the axis of translation of the actuating member which is substantially equal to 30 °. 5. Device according to one of the preceding claims, characterized in that the operating member (26) is guided axially in said shell (20) so as to slide along the cover (24), and in that the square controller (12) has a carrier head of said eccentric pin (96) which is disposed between the base and the actuator, said groove (82) being provided on the inner face of the actuator, facing the base of the shell. 6. Device according to one of the preceding claims, characterized in that the actuating member (26) comprises a guide portion (72) which carries the groove (82) adapted to cooperate with the pin (96) integral with the square control, and an actuating portion (74) accessible from outside the shell (20). 7. Device according to the preceding claim, characterized in that said actuating portion (74) carries guide means (116) adapted to cooperate with complementary means (118) carried by the base (22). 8. Device according to one of the preceding claims, characterized in that the shell (20) further accommodates expansible means (30) for fixing said shell on the opening, adapted to be deployed along an axis parallel to the translation axis of the operating member (26). 9. Device according to the preceding claim, characterized in that said expandable means (30) comprise a pair of flanges (98, 99) carrying at their opposite end of latching means (102, 132) adapted to cooperate with complementary means formed in the amount of the opening (4), and an expander (100) disposed between the flanges and adapted to separate them from one another so that the expandable means take an expanded position in which the shell is fixed in the amount of the opening. 10. Device according to the preceding claim, characterized in that the expander (100) is adapted to receive a clamping screw (54) to achieve the spacing of said flanges (98, 99), said expander having on one side by which the screw is inserted a countersink of appropriate dimensions so that the screw head is embedded in the thickness of the expander, out of the translation path of the actuating member (26).