FR2989410A1 - DEVICE FOR CONTROLLING THE OPENING OF A DOOR - Google Patents

Abstract

The device comprises a control square (16), a handle (10), means for securing in rotation to secure the handle in rotation with the control square, means for entering an opening authorization information and means activation able to activate the joining when the information is entered. The means for securing in rotation comprise at least one pin (28) integral in rotation with a first of the elements constituted by the control square (16) and the handle (10) and a receiving part (40) integral in rotation with the second said elements and having at least one receiving cavity (40A). The activation means are capable of causing a displacement of the pin (28) parallel to the axis of rotation (A) of the square between a deactivated position in which the pin is outside the receiving cavity (40A) an activated position in which the pin is engaged in this cavity.

Description

The present invention relates to a device for controlling the opening of a door comprising a control square having an axis of rotation, a handle that can be actuated by a user, rotationally locking means capable of being activated to secure the handle in rotation with the control square, means for entering an opening authorization information, and activation means adapted to activate the rotation fastening means when the authorization information is entered . Devices of this type are known, for example by the application WO 2009/078800. The handle may be a crutch or, for example, a rotary knob. As long as the authorization information is not entered, the handle rotates in a vacuum or is locked in rotation. When this information is entered, the securing means being activated, the actuation of the handle rotates the control square. Conventionally, a bolt is then rotated by this square, which allows the opening of the door. The opening authorization information may be a code entered by the user or read or transmitted from a badge, or a biometric information detected by one or more sensors. In general, this information is of any type suitable for associating an opening authorization with a particular user or with particular circumstances. In the above-mentioned patent application WO 2009/078800, rotational fastening means are relatively complex and use engagement members, in particular balls, which are displaceable radially under the effect of an axial load. Due to this complex displacement, with an axial component and a radial component, the device itself is relatively complex. To preserve the aesthetics of the assembly, in particular of the handle, the engagement balls must be of very small dimensions, and must cooperate with organs themselves of small dimensions. This miniaturization further increases the complexity of the device and its cost. The object of the invention is to provide a control device which is both simple and reliable, while taking up a small footprint, so as to allow multiple aesthetic choices for the device as a whole and, in particular, for the handle. .

This object is achieved thanks to the fact that the means for securing in rotation comprise at least one pin integral in rotation with a first of the elements constituted by the control square and by the handle and a receiving part, integral in rotation with the second of said elements. and having at least one receiving cavity, and the fact that the activation means are able to cause a displacement of the pin parallel to the axis of rotation between a deactivated position in which said pin is outside the receiving cavity and a activated position in which the pin is engaged in the receiving cavity.

The rotation fastening is particularly reliable, and operates by a simple engagement of the pin in the receiving cavity. It is easy to dimension the spindle so that, while having small dimensions, it resists shearing forces allowing the rotation attachment. In addition, it is not necessary that its axial displacement is large amplitude. The pin can be housed in the portion of the handle projecting axially on the door, generally in the extension of the control square, without requiring a handle of large radial dimensions and without requiring a base or a rosette fixing the handle to the door, large dimensions.

Advantageously, the first element is rotatably connected to a connecting piece having a spindle bore in which the spindle is engaged, and the activation means are capable of causing a displacement of the spindle in said spindle piercing. what it exceeds from the latter and engages in the receiving cavity.

The connecting piece can be designed in a wide variety of forms, provided that it is made integral in rotation with the first element (control square or handle). The spindle is normally held in the standby position inside the spindle bore, and only a slight axial displacement is required for it to protrude from this piercing and engages the receiving cavity, thus allowing for integral engagement with the spindle. efficient rotation, in a small footprint. Preferably, the device comprises biasing means capable of biasing the handle in rotation so as to place the receiving cavity and the spindle bore facing one another parallel to the axis of rotation.

These return means are of a simple design, type used to recall the handles (rotary knob or stand) in their waiting positions. When mounting the handle, it will be ensured that this standby position corresponds to that in which the spindle piercing and the receiving cavity are vis-à-vis. Advantageously, the pin is carried by a support adapted to be moved axially by the activation means. The pin can thus have the shape of a simple pawn particularly inexpensive and easy to assemble, while it is its support that is moved axially while being solicited as will be seen later. Advantageously, the device comprises an actuating rod, integral with the support, arranged along the axis of rotation and passing through a central bore of the receiving piece so as to have a control end accessible from the other side of the receiving piece by relative to the spindle, and the activation means are disposed on said other side and cooperate with said control end. The actuating rod can be designed in alignment with the control square, without increasing the radial dimensions of the device. The assembly and disassembly of the device are made easy by the fact that the rod is accessible on the other side of the receiving part with respect to the spindle. Advantageously, the connecting piece has a bell-shaped shape, with an internal housing in which is disposed the support and a bottom provided with the spindle piercing. Being disposed in the inner housing, the support can be perfectly guided in its axial displacement. Advantageously, the device comprises biasing means able to permanently recall the support away from the bottom. Advantageously, the receiving member is formed in a transverse wall portion of a receiving socket which surrounds the connecting piece. The receiving part is thus of simple design. In addition, the fact that the receiving sleeve surrounds the connecting piece allows easy assembly, while avoiding inadvertent angular movements. Advantageously, the device comprises a plurality of pins angularly distributed around the axis of rotation.

For example, one can provide 2, 3 or 4 pins distributed regularly angularly. This distributes control forces of the control square and allows to choose for the relatively small dimensions of the pins, while allowing their easy handling during their assembly. According to an advantageous embodiment, the activation means comprise an electromagnet housed in the handle. Serving only to cause axial displacement, the electromagnet can be of small dimensions and can therefore be housed very discreetly in the handle, in particular in its portion projecting axially relative to the door. Advantageously, the electromagnet comprises a movable actuating part, integral in axial displacement of the actuating rod and permanently recalled by return means in a position in which the pin is deactivated. According to an advantageous embodiment, the first element, whose spindle is integral in rotation, is the control square, while the second element, whose receiving part is integral in rotation, is the handle.

According to another aspect of the invention, the device comprises an additional handle, adapted to be placed on the other side of the door relative to the handle, a base, adapted to be fixed to the door on the side of said additional handle and having a sleeve portion in which an end of the control square is accessible, a push member having an end engaged in said sleeve portion, and means for biasing the thrust member in axial thrust against said end of the square of ordered. This makes it possible to use control squares of the same length for different door thicknesses. Depending on the thickness of the door, the end of the square protrudes more or less inside the sleeve portion. It is however perfectly maintained by being pushed through the push member. Advantageously, the means for biasing the thrust member in axial thrust against said end of the control square comprise a spring disposed in the sleeve portion. The invention will be better understood and its advantages will appear better on reading the detailed description which follows, of an embodiment shown by way of example and not limitation. The description refers to the accompanying drawings, in which: FIG. 1 is a perspective view of a control device according to the invention, with partial tearing in the handle; - Figure 2 is a view of a device according to the invention, according to an alternative embodiment; FIG. 3 is a sectional view of a control device according to the invention taken in the plane P of FIG. 1, vertical plane comprising the axis of rotation A of the control square, FIG. means for securing in rotation in the inactivated state; FIG. 4 is a view similar to FIG. 3, showing the means for securing in rotation in the activated state; FIG. 5 shows, in section in the plane P, a control device according to another aspect of the invention; and - Figure 6 is a view similar to Figure 5, for another door thickness. The control device shown in FIG. 1 comprises two handles 10, 12, of the stand type. Conventionally, these handles can be pivotally actuated to rotate the control square 16 along its axis of rotation A. According to a first aspect, the control device according to the invention is particularly interested in the handle 10, which allows actuation of the control square when authorization information is inputted. In this case, the handle 10 comprises a zone 14 for reading a code. It may for example be a cell for reading the fingerprint of a user authorized to enter the room protected by the door, or a reading area of an authorization signal, or a reading zone of a badge. In Figure 2, the handle 10 is equipped, by its base 22 for attachment to the door, a keyboard 20 for entering a code. With reference to FIG. 3, the structure of the handle 10 is now described by way of example. FIG. 3 shows a base or rosette 22 that can be fixed to the door 1. In a conventional manner, the base 22 rests against the door by means of a contact seal 2. Pieces 3 which grip in the door, prevent the base from rotating relative to the door. The handle can be fixed to the door by any known means. In this case, there is shown a fixation without drilling, using a square 16 which is hollow, and in which passes a tension rod 15. This assembly will be described below. The handle 10 comprises an axial portion 10A, which extends substantially in the extension of the square 16, thus developing an axial projection relative to the door 1, and an actuating portion or leg 10B visible in Figure 1 or 2 Between the axial portion 10A of the handle and the base 22, is a cup 24, fixed to the base 22 by screws 23. In this case, the outer surfaces of the base 22, the cup 24 and the axial portion 10A of the handle form conical frustums located in extension of each other, so that this set has an elegant conical outer shape. The square 16 is integral in rotation with a control head 16A. This head has the form of a plate, with a central opening 16A 'in which engages the end 16' of the form-complementary control square, and a transmission portion 16A "with a notch 16" which cooperates with a transmission pin 17. The plate 16A is disposed in a cavity 22A of the base 22, on the side of the door 1. The bottom of this cavity is pierced by a slot 22 'through which the pin 17 passes. light has a shape in a circular arc, thus allowing the displacement of the pin in said light during the rotation of the square 16, although the base 22 is fixed. The central portion of the base has an axial extension 22B aligned with the control square 16. The pin 17 makes the control head 16A, and therefore the square 16, integral in rotation with a connecting piece. Indeed, the device comprises a two-part connecting piece, 26A, 26B. The first part 26A, located on the side of the door 1, has an extension with a hole 26'A in which is engaged the pin. The first and second parts 26A and 26B are secured in rotation, for example by a clutch link in the region of their facing axial faces, 26A ', 26B'. In reality, the connecting piece could just as well be in one part. In this case, on the opposite side to the door, the second part 26B has a bottom 26 ", so that the connecting piece 26A, 26B has the overall shape of a bell.It is seen in FIG. two pins 28 which are arranged in the second portion 26B of the connecting piece, and whose opposite ends to the door are engaged in pin holes 26C that has the bottom 26 "of the second portion 26B of the connecting piece. The two pins 28 are carried by a support 30 which is movable inside the second portion 26B of the connecting piece. We see that the device comprises an actuating rod 32 which is integral with the support 30. More specifically, it comprises two housing-shaped sleeve 30 'receiving the ends of the pins 28 located on the side of the door 1. These housing may have flat bottoms, or at least funds of narrow diameter preventing the pins 28 out of these housing on the side of the door 1.

The central portion of the support 30 has a bore 30 "in which is engaged the actuating rod 32. This bore 30" is aligned with the square 16. It is seen that this bore 30 "has, on the side of the door 1, a frustoconical end, in which is engaged the head of a screw 34 whose barrel is screwed into the rod 32. Thus, the rod 32 is secured to the support 30. A return spring 36 is interposed between the support 30 and the wall of bottom 26 "of the part 26B of the connecting piece. Thus, this spring tends to permanently remove the support 30 of the bottom 26 ", thus reminding the support 30 to the door 1. Overall, the support 30 and the connecting piece 26A, 26B, are arranged in the cup 24.

The device also comprises a receiving part 40 with receiving cavities 40A, situated in FIG. 3 facing the pin holes 26C of the connecting piece. In the example shown, the receiving part 40 is formed in a transverse wall portion of a receiving bush 42, the inner axial portion 42A of which extends towards the door 1 from this transverse wall portion around the workpiece. link 26A, 26B, at least in its portion 26B. The receiving sleeve is integral in rotation with the handle. More specifically, the axial portion 42B of the sleeve 42 which extends opposite the door from the transverse wall portion 40 is keyed to the axial portion 10A of the handle by keys 44.

A rotationally fixed guide ring 46 is disposed between the cup 24 and, on the one hand, an inner axial extension 10A 'of the axial portion 10A of the handle and, on the other hand, the inner axial portion 42A of the socket 42. An anti-friction pad 48 is disposed between the extension 10A 'and the fixed ring 46. Towards its end facing the door, the sleeve 42 carries a stop ring 50 which is retained relative to this socket by a circlip 50 'being integral in rotation with the sleeve 42. Between the inner periphery of the stop ring 50 and the outer periphery of the fixed ring 46 is disposed a return spring 52 which recalls the handle in the initial position. This spring is of the helical type, with ends respectively bearing, on the one hand, on the fixed ring 46 and, on the other hand, on the stop ring 50. This spring forms a return means which makes it possible to recall the handle rotates so as to place the receiving cavities 40A and the pin bores 26C facing each other parallel to the axis of rotation A, respectively. It is thus understood that when the pins 26 are displaced axially in the direction of the arrow F, they can enter the receiving cavities 40A. Moreover, Figure 3 shows the pins 28 disposed within the connecting piece 26, specifically within its portion 26B. In this state, the ends of the pins 28 opposite to the door 1 do not protrude into the receiving cavities 40A, so that the rotation of the handle 10 does not cause the rotation of the square 16. On the other hand, in FIG. the pins have been activated, and we see that they penetrate the receiving cavities 40A. Indeed, the support 30 has moved in the direction of the arrow F, driving with it the pins 28 in the direction of this arrow F. To cause this movement of the support 30, the actuating rod 32 passes through a central bore 40B of the receiving part 40, that is to say of the transverse wall portion of the sleeve 42. Thus, the end of the rod 32 opposite the door forms a control end 32A of this rod, accessible from the other side of the receiving part 40 with respect to the pins 28. It can be seen that this end 32A is rendered axially integral, for example by screwing, with the mobile part 56A of an electromagnet 56, housed in the axial portion 10A of the handle. The fixed body 56B of the electromagnet is in this case carried by the sleeve 42, to which it is fixed by a support 58. Thus, the electromagnet accompanies the pivoting of the handle, but its body 56B is fixed axially. A spring 60 bears, on the one hand, on the front wall 56B 'of the body of the electromagnet and, on the other hand, on the mobile part 56A of the electromagnet, for example by means of a circlip. . Thus, when the electromagnet is deactivated, the moving part of the latter tends to be pushed towards the door. This spring 60 thus serves to push the actuating rod 32 towards the door. The combined effects of the springs 60 and 36 thus tend, in the absence of stress, to keep the pins 28 in the inactivated state, in which their opposite ends to the door do not penetrate into the receiving cavities 40A. On the other hand, when the electromagnet is activated, the mobile part 56A of this electromagnet moves in the direction of the arrow F, driving with it the actuating rod 32 and, therefore, the support 30 and its pins 28 which penetrate therefore in the receiving cavities 40A, so as to engage the handle 10 on the control square 16. Thus, in the inactivated state of the electromagnet 56, the handle is disengaged, while it is engaged in the activated state of the electromagnet. The latter can be configured so that its activation state lasts a short time, at most of the order of a few seconds, so that the device automatically returns to the inactivated state of the handle. As seen in the cutaway portion of Figure 1, the electromagnet 56 may be powered by one or more batteries 64 disposed in the leg portion 10B of the handle. Furthermore, it has been indicated previously, that part 14 of the stand is used to receive a coded signal. It may be a signal transmitted by a badge, and an antenna device can then be housed in the leg portion 10B of the handle 10 for example by being embedded in the front of the part 14. In the FIG. 1 shows two electronic cards 66, serving for example respectively for the local management of the handle (detection that the correct opening authorization information has been entered and transmission of an activation command to the electromagnet) and remote management, for example via a control computer, connected in radio link.

In the embodiment of FIG. 2, the code can be entered using the keypad 20. It can be a keyboard with mechanical keys or electric contact keys. power supply used for the electromagnet can also be used for this keyboard. This keyboard can coexist with another system for inputting the opening authorization information, which is why the reading zone 14 is shown in FIG. 2. In the example shown in FIGS. 4, the code is entered on the side of the handle 10 which is equipped with the activation / deactivation device of the handle and the control square. However, it would be possible for the code to be entered on the opposite side of the door 1. For example, the square 16 may be hollow and a layer of signal transition wires 70 may be arranged according to the diagram shown in FIG. passing through the interior of the square 16, emerging through a bore made in the wall of this square (drilling not shown), to pass between the door 1 and the plate forming the control head 16A, pass through a light 22 "of the base 22, in the grooves of the receptacle sleeve 42, to the electromagnet 56. Referring to FIGS. 5 and 6, a second aspect of the invention is now described which, in this case The handle 12 also has the shape of a stand, with an axial portion 12A and a stand part 12B, as can be seen in FIGS. mount this handle on the door, the device includes a The base 72 is fixed to the door 1 by means of a fixing plate 2. This base 72 has a sleeve portion 72B in which the end 16 "of the control square is accessible. In this case, the base 72 has a cavity 72A open on the side of the door 1, in which is disposed a control head 76A of the square 16, similar to the control head 16A. Indeed, the end 16 "of the square is inserted in complementary form in the central opening 76A 'of the control head 76A, and the latter 30 cooperates with a pin 77 similar to the pin 17, by a cavity or a notch present in its radial extension 76A ". This pin 77 therefore passes through a light 72 'that has the base 72. This light 72' is in an arc, so as to allow the rotation of the square, causing that of the pin, despite the fact that the base is fixed. Thus, the end of the pin 77 35 opposite the door 1 cooperates with a drive sleeve 78 on which is keyed the axial portion 12A of the handle, by keys 79. A cup 80, of external shape similar to the cup 24 previously mentioned, is disposed between the base 72 and the axial portion 12A of the handle 12. This cup 80 is fixedly mounted on the base 72 being secured by screws 73. A fixed ring 82 is interposed between the inner periphery of the cup 80 and the outer periphery of an axial axial extension 12A 'of the axial portion 12A of the handle. A pad 84 is interposed between the fixed ring 82 and said extension 12A '. A stop ring 86 integral in rotation with the sleeve 78 is disposed on the side of the fixed ring 82 opposite the handle 12. A spring 98 is interposed between the fixed ring 82 and the stop ring 86. This spring 98 serves to return the rotating handle to its original position. The device represented in FIGS. 5 and 6 comprises a thrust member 90 which has an end 90A engaged in the sleeve portion 72B of the base 72 and which bears against thrust towards the door 1 against the end 16 of the square 16. Thus, this square is biased in axial thrust against the control device located on the other side of the door, that is to say, in this case, against the bottom of the cavity 22A of the It is seen that a spring 92 is disposed in the sleeve portion 72 B. This spring bears, on the one hand, against a shoulder 90A formed at the end of the thrust member 90 and turned the opposite of the door 1, and secondly, against a shoulder 72B 'located on the sleeve portion 72B, and facing the door 1. Comparing Figures 5 and 6, it is understood that the same square 16 can Thus, in FIG. 5, the end 16 "of the square exceeds very little beyond the control head 76A, and the spring 92 is partially relaxed. On the other hand, in FIG. 6, the door being less thick, the end 16 "protrudes much more inside the sleeve portion 72B, and the spring 92 is substantially compressed.

The square 16 is traversed right through by a tension rod 15 whose first end 15A (FIGS. 3 and 4) is fixed, for example by screwing, to the central portion 22B of the base 22. The rod may have a shoulder beyond which is delimited its first end 15A, this shoulder bearing against the bottom against the cavity 22A of the base 22.

The second end 15B (Figures 5 and 6) of this rod 15 is tensioned, by screwing a nut 100, on a spacer 94, itself bearing against the base 72. Thus the rod 15 interferes not with the rotation of the square, but maintains the two handles 10 and 12 by taking the door 1 sandwiched between them. The thrust member 90 is not connected to this tension rod 15 and bears on the end 16 "of the square 16 under the thrust effect of the spring 92. The rod 15 passes through the thrust member 90 As in the example shown, the rod 15 can have a reduced diameter in the region of its threaded end 15B with respect to its central region.

Claims (14)

REVENDICATIONS1. Device for controlling the opening of a door comprising a control square (16) having an axis of rotation (A), a handle (10) able to be actuated by a user, means for securing in rotation (28, 40) adapted to be activated for securing the handle (10) in rotation with the control square (16), means (14, 20) for entering an opening authorization information, and activation means (56). ) capable of activating the means for securing in rotation when the authorization information is input, characterized in that the means for securing in rotation comprise at least one pin (28) integral in rotation with a first of the elements constituted by the control square (16) and by the handle (10) and a receiving part (40), rotatably connected to the second of said elements and having at least one receiving cavity (40A), and in that the activation means (56) ) are capable of causing a displacement of the br oche (28) parallel to the axis of rotation (A) between a deactivated position in which said pin is outside the receiving cavity (40A) and an activated position in which the pin is engaged in the receiving cavity. 2. Device according to claim 1, characterized in that the first element (16) is integral in rotation with a connecting piece (26A, 26B) having a pin hole (26C) in which the pin (28) is engaged. and in that the activation means (56) is adapted to cause a displacement of the pin (28) in said pin hole (26C) until it protrudes from the latter and engages in the cavity receiver (40A). 3. Device according to claim 2, characterized in that it comprises return means (52) adapted to return the handle (10) in rotation so as to place the receiving cavity (40A) and the pin hole (26C) facing each other parallel to the axis of rotation (A). 4. Device according to any one of claims 1 to 3, characterized in that the pin (28) is carried by a support (30) adapted to be moved axially by the activation means (56). 5. Device according to claim 4, characterized in that it comprises an actuating rod (32), integral with the support (30), arranged along the axis of rotation (A) and passing through a central bore (40B) of the receiving member (40) so as to have a control end (32A) accessible from the other side of the receiving member (40) with respect to the pin (28) and that the activating means (56) are disposed on said other side and cooperate with said control end (32A). 6. Device according to claims 2 and 4 and any one of claims 1 to 5, characterized in that the connecting piece (26A, 26B) has a bell-shaped, with an inner housing in which is disposed the support ( 30) and a bottom (26 ") provided with the spindle bore (26C). 7. Device according to claim 6, characterized in that it comprises return means (36) able to permanently recall the support (30) away from the bottom (26 "). 8. Device according to any one of claims 2 to 7, characterized in that the receiving member (40) is formed in a transverse wall portion of a receiving sleeve (42) which surrounds the connecting piece. 9. Device according to any one of claims 1 to 8, characterized in that it comprises a plurality of pins (28) angularly distributed about the axis of rotation (A). 10. Device according to any one of claims 1 to 9, characterized in that the activation means comprise an electromagnet (56) housed in the handle (10). 11. Device according to claims 5 and 10 and any one of claims 1 to 10, characterized in that the electromagnet (56) comprises a movable actuating portion (56A), integral in axial displacement of the rod of actuation (32) and continuously recalled by return means (60) in a position in which the pin (28) is deactivated. 12. Device according to any one of claims 1 to 11, characterized in that the first element, whose pin (28) is integral in rotation, is the control square (16), while the second element, whose receiving member (40) is integral in rotation, is the handle (10). 13. Device according to any one of claims 1 to 12, characterized in that it comprises an additional handle (12), adapted to be placed on the other side of the door relative to the handle (10), a base (72), adapted to be attached to the door on the side of said additional handle (12) and having a sleeve portion (72B) in which one end (16 ") of the control square (16) is accessible, a thrust (90) having one end engaged in said sleeve portion (72B), and means for biasing the thrust member in axial thrust against said end (16 ") of the control square (16). 14. Device according to claim 13, characterized in that the means for biasing the thrust member (90) in axial thrust against said end (16 ") of the control square (16) comprise a spring (92) disposed in the sleeve portion (72B).