EP3106598A1 - System for driving an openable body section - Google Patents

Abstract

Drive system (1) of an opening (2) comprising: - a motor (M) of opening drive (2); a first motor control means (4) selectively adopting a power supply configuration and a non-power supply configuration of the motor. The system (1) comprises: - a threaded shaft (5) driven by the motor (M); a first nut (6a) forming a screw-nut connection with the threaded shaft (5); first indexing means (7a) selectively engageable with the first nut (6a) to prevent the rotation of the first nut (6a) while permitting its axial displacement; said first control means (4) is in feed configuration when the first nut (6a) is on a first axial portion (P1) of the threaded shaft and is in a non-feeding configuration when this first nut ( 6a) is positioned on a second axial portion (P2) of the shaft (5).

Description

The invention relates to the field of opening drive systems.

BACKGROUND OF THE INVENTION

To move an opening such as a door, a window, a gate, a shutter, a hatch, a flap, a partition, or to wind a fabric, a net, a protective film, a tarpaulin between a closed position and a position open the opening, there are a large number of drive systems. For example the patent document US6382005 B1 describes a drive system of an opening, in this case a garage door. This system comprises an electric motor for driving the opening, position sensors for sensing the displacement of the opening relative to a frame of the opening and thus to determine stopping positions of the engine. These position sensors of the opening must be adjusted to ensure a correspondence between the position sensed by the sensor and the position actually adopted by the opening. Improper adjustment of the drive system can lead to damaging the sash, if for example the motor forces the sash when it is already in an end position and it bears against a stop. Similarly, a wrong setting can lead to a sash detection in the closed position when in fact, the sash is always in an intermediate position, between its open and closed positions.

The setting of the sash drive system is particularly difficult for the user.

OBJECT OF THE INVENTION

An object of the present invention is to provide a control system of an engine which has features facilitating its adjustment by a user and a repeatability of the closed and open positions.

SUMMARY OF THE INVENTION

• un moteur entraînant un arbre pour commander le déplacement d'un ouvrant tel qu'une porte ou un portail ;
• au moins un premier moyen de commande du moteur adapté à adopter sélectivement une configuration d'alimentation électrique du moteur et une configuration de non alimentation électrique du moteur.

For this purpose, it is proposed according to the invention, a drive system of an opening comprising:

• a motor driving a shaft for controlling the movement of an opening such as a door or a gate;
• at least a first motor control means adapted to selectively adopt a power supply configuration of the motor and a configuration of non-power supply of the motor.

• un arbre fileté sur au moins une portion de sa longueur, cet arbre fileté étant monté à rotation selon un premier axe de rotation et étant adapté à être entraîné à rotation par le moteur selon ce premier axe de rotation ;
• au moins un premier écrou coopérant avec ledit arbre fileté de manière à former une liaison vis-écrou entre l'arbre fileté et le premier écrou ;
• au moins des premiers moyens d'indexation agencés pour s'engager sélectivement avec ledit premier écrou et lorsqu'ils sont engagés avec ce premier écrou, ces premiers moyens d'indexation interdisent la rotation dudit premier écrou par rapport à ces moyens d'indexation tout en autorisant le déplacement axial dudit premier écrou le long dudit arbre fileté ;
• ledit au moins un premier moyen de commande du moteur est agencé pour se trouver dans sa configuration d'alimentation lorsque le premier écrou est positionné le long d'une première portion axiale de l'arbre fileté et pour se trouver dans sa configuration de non alimentation lorsque ce premier écrou est positionné le long d'une deuxième portion axiale de l'arbre fileté qui est distincte de ladite première portion axiale.

The drive system according to the invention is essentially characterized in that it comprises:

• a shaft threaded over at least a portion of its length, said threaded shaft being rotatably mounted along a first axis of rotation and being adapted to be rotated by the motor along said first axis of rotation;
• at least one first nut cooperating with said threaded shaft so as to form a screw-nut connection between the threaded shaft and the first nut;
• at least one of the first indexing means arranged to engage selectively with said first nut and when engaged with this first nut, these first indexing means prohibit the rotation of said first nut relative to these indexing means while permitting the axial displacement of said first nut along said threaded shaft;
• said at least one first motor control means is arranged to be in its feed configuration when the first nut is positioned along a first axial portion of the threaded shaft and to be in its non-power configuration when this first nut is positioned along a second axial portion of the threaded shaft which is distinct from said first axial portion.

When the first indexing means are engaged with said first nut, they then prohibit the rotation of the nut and thus, if the threaded shaft is rotated by the motor, the first nut moves along the shaft threaded. This displacement of the first nut moves it from the first axial portion to the second axial portion of the threaded shaft, or inversely depending on the direction of rotation of the threaded shaft relative to the first nut.

The first motor control means is in the feed configuration when the first nut is along the first axial portion of the threaded shaft and is in the non-feed configuration when the first nut is along the second portion. axial axis of this threaded shaft.

Thanks to the screw-nut connection between the threaded shaft and the first nut, it is certain that at any given rotation of the threaded shaft, there corresponds a proportional axial displacement of the nut, which limits the risk of having a phase shift between the rotation of the shaft driven by the motor and the axial position of the first nut. Thus, each closed position and each open position memorized by the drive system according to the invention is stable over time and can be repeated with each cycle of operation of the drive system.

When the first indexing means are engaged vis-à-vis the first nut, they then prohibit the rotation of the first nut relative to the first indexing means which forces the first nut to move along the shaft threaded in response to rotating the threaded shaft.

Conversely, when the first indexing means are disengaged vis-à-vis the first nut, the rotation of the first nut relative to the first indexing means is then allowed and the first nut can then rotate with the threaded shaft when the latter is rotated. Thus, when the first indexing means are disengaged vis-à-vis the first nut, the rotation of the threaded shaft causes the rotation of the first nut without the nut moves along the threaded shaft.

• désengager le premiers moyens d'indexation vis-à-vis du premier écrou ; puis
• d'actionner le moteur jusqu'à ce qu'il atteigne une première position souhaitée du moteur qui correspond à une position donnée de l'ouvrant; puis
• de visser le premier écrou le long de l'arbre fileté jusqu'à ce qu'il se trouve le long de la deuxième portion axiale de l'arbre fileté, le premier moyen de commande du moteur passe alors dans sa configuration de non alimentation ; puis
• d'engager les premiers moyens d'indexation avec le premier écrou pour obliger le premier écrou à se déplacer le long de l'arbre fileté en réponse à une mise en rotation de l'arbre fileté.

Thus, when the user wants to define a first position of the engine in which he wishes that there is no possible power supply of the engine via the first control means of the engine, it suffices for successively:

• disengage the first indexing means vis-à-vis the first nut; then
• operating the engine until it reaches a first desired position of the engine which corresponds to a given position of the sash; then
• screwing the first nut along the threaded shaft until it is along the second axial portion of the threaded shaft, the first motor control means then passes into its non-power configuration; then
• engaging the first indexing means with the first nut to cause the first nut to move along the threaded shaft in response to rotation of the threaded shaft.

With the sash drive system according to the invention, the user can simply set and memorize the first position of the engine in which the engine can not be powered via the first control means. For this, it suffices to move the first nut along the threaded shaft while the first indexing means are disengaged from the first nut, then to re-engage the first nut.

As the first position of the engine corresponds to a first given position of the opening, it is sufficient for the user to manually control the engine to position the opening in its first given position, then to cut off the engine power and to memorize the position reached by the engine.

• un deuxième écrou coopérant avec l'arbre fileté de manière à former une liaison vis-écrou entre l'arbre fileté et ce deuxième écrou ; et
• au moins des deuxièmes moyens d'indexation agencés pour s'engager sélectivement avec ledit deuxième écrou et lorsqu'ils sont engagés avec ce deuxième écrou, ces deuxièmes moyens d'indexation interdisent la rotation dudit deuxième écrou par rapport à ces deuxièmes moyens d'indexation tout en autorisant le déplacement axial dudit deuxième écrou le long dudit arbre fileté ;
• au moins un deuxième moyen de commande du moteur adapté à adopter sélectivement une configuration d'alimentation électrique du moteur et une configuration de non alimentation électrique du moteur ; et
• ledit au moins un deuxième moyen de commande du moteur est agencé pour se trouver dans sa configuration d'alimentation lorsque le deuxième écrou est positionné le long de la première portion axiale de l'arbre fileté et pour se trouver dans sa configuration de non alimentation lorsque ce deuxième écrou est positionné le long d'une troisième portion axiale de l'arbre fileté, la première portion axiale se trouvant entre les deuxième et troisième portions axiales de l'arbre fileté.

According to a preferred embodiment of the engine control system according to the invention, this system further comprises:

• a second nut cooperating with the threaded shaft so as to form a screw-nut connection between the threaded shaft and the second nut; and
• at least second indexing means arranged to engage selectively with said second nut and when engaged with the second nut, these second indexing means prohibit the rotation of said second nut relative to these second indexing means while permitting the axial displacement of said second nut along said threaded shaft;
• at least one second motor control means adapted to selectively adopt an electrical power supply configuration of the motor and a non-power supply configuration of the motor; and
• said at least one second motor control means is arranged to be in its feed configuration when the second nut is positioned along the first axial portion of the threaded shaft and to be in its non-feeding configuration when this second nut is positioned along a third axial portion of the threaded shaft, the first axial portion being between the second and third axial portions of the threaded shaft.

With this embodiment the motor can be powered via the first control means or via the second control means. Thus, the first control means and the motor can be arranged so that when the first control means is in its motor power supply configuration, then this motor moves in a first direction. Similarly, the second control means and the motor can be arranged so that when the second control means is in its power supply configuration of the motor, then this motor can be controlled to move in a second opposite direction. relative to said first direction.

• une première position du moteur dans laquelle le moteur ne peut pas être alimenté via le premier moyen de commande, le moteur ne pouvant alors être alimenté que via le deuxième moyen de commande ; et
• une deuxième position du moteur, qui est distincte de la première position du moteur, et dans laquelle le moteur ne peut pas être alimenté via le deuxième moyen de commande, le moteur ne pouvant alors être alimenté que via le premier moyen de commande.

Since the second control means of the motor is arranged to be in its non-supply configuration when the second nut is positioned along a third axial portion of the threaded shaft, the drive system according to the invention makes it possible to to define :

• a first motor position in which the motor can not be powered via the first control means, the motor can then be powered only via the second control means; and
• a second motor position, which is distinct from the first position of the engine, and in which the motor can not be powered via the second control means, the motor can then be powered only via the first control means.

The adjustment of this second position of the motor is done in the same way as for the first position, with the difference that instead of engaging or disengaging the first indexing means vis-à-vis the first bolt, the user engages or disengages the second indexing means vis-à-vis the second nut.

When the second indexing means are engaged with said second nut, they then prohibit the rotation of the nut and thus, if the threaded shaft is rotated by the motor, the second nut then moves along the threaded shaft. The second engine control means is in feed configuration when the second nut is along the first axial portion of the shaft. The second control means is in a non-supply configuration when the second nut is along the third axial portion of the shaft.

When these second indexing means are engaged vis-à-vis the second nut, they then prohibit its rotation relative to the second indexing means which forces the second nut to move along the threaded shaft in response to the rotation of this shaft.

Conversely, when the second indexing means are disengaged, even if the threaded shaft is rotated the second nut, the second nut can remain fixed relative to this shaft and thus not move along this threaded shaft .

When the first and second indexing means are disengaged vis-à-vis the first and second nuts, the user can control the motor to move the opening until reaching an end position he wishes to memorize , without the nuts moving along the shaft. There is therefore no risk that a disengaged nut comes to lock axially during this storage. The operator can thus freely maneuver the engine without worrying about the position of the nut (s) he has disengaged (s).

• désengager les deuxièmes moyens d'indexation vis-à-vis du deuxième écrou ; puis
• d'actionner le moteur jusqu'à ce qu'il atteigne la seconde position souhaitée du moteur qui correspond à une position donnée de l'ouvrant ; puis
• de visser le deuxième écrou le long de l'arbre fileté jusqu'à ce qu'il se trouve le long de la troisième portion axiale de l'arbre fileté qui correspond à la portion de l'arbre fileté dans laquelle le deuxième moyen de commande du moteur se trouve dans sa configuration de non alimentation ; puis
• d'engager les deuxièmes moyens d'indexation avec le deuxième écrou pour obliger cet écrou à se déplacer le long de l'arbre fileté en réponse à une mise en rotation de cet arbre fileté.

When the user wants to define a second position of the engine in which he wishes that there is no possible motor power via the second motor control means, it is sufficient for successively:

• disengaging the second indexing means vis-à-vis the second nut; then
• operating the engine until it reaches the desired second engine position corresponding to a given position of the sash; then
• screwing the second nut along the threaded shaft until it is along the third axial portion of the threaded shaft which corresponds to the portion of the threaded shaft in which the second control means the motor is in its non-power configuration; then
• to engage the second indexing means with the second nut to force the nut to move along of the threaded shaft in response to a rotation of this threaded shaft.

• comporte au moins un deuxième moyen de commande du moteur adapté à adopter sélectivement une configuration d'alimentation électrique du moteur et une configuration de non alimentation électrique du moteur ; et
• ledit au moins un deuxième moyen de commande du moteur est agencé pour se trouver dans sa configuration d'alimentation lorsque le premier écrou est positionné le long de la première portion axiale de l'arbre fileté et pour se trouver dans sa configuration de non alimentation lorsque ce premier écrou est positionné le long d'une troisième portion axiale de l'arbre fileté, la première portion axiale se trouvant entre les première et deuxième portions axiales.

According to an alternative embodiment of the foregoing, the sash drive system (s) according to the invention:

• comprises at least a second motor control means adapted to selectively adopt an electrical power supply configuration of the motor and a configuration of non-power supply of the motor; and
• said at least one second motor control means is arranged to be in its feed configuration when the first nut is positioned along the first axial portion of the threaded shaft and to be in its non-feeding configuration when this first nut is positioned along a third axial portion of the threaded shaft, the first axial portion being between the first and second axial portions.

According to this alternative a single nut is threaded on the threaded shaft to move along the shaft and thus control the configuration changes of the first and second control means according to its position along the threaded shaft. Here, when this first nut is deindexed vis-à-vis the first indexing means, the adjustment in position of the first nut can be done. For this, it is sufficient to translate this first nut along said threaded shaft by pivoting the first nut relative to this threaded shaft.

In addition to this mode, to enable the amplitude of the first axial portion to be defined, it is possible for at least one of the engine control means to have a first position sensor of the first nut that is independent of the shaft. threaded and movable along this shaft threaded between several axial positions respectively indexable.

BRIEF DESCRIPTION OF THE DRAWINGS

• la figure 1 illustre une serre horticole dotée d'un ouvrant motorisé entre des positions ouverte et fermée par l'intermédiaire système d'entraînement d'ouvrant selon l'invention ;
• la figure 2 présente une vue extérieure d'un carter du système d'entraînement d'ouvrant selon l'invention, ici le moteur est intégré dans le carter et un arbre du moteur s'étend au travers du carter pour d'une part entrainer l'ouvrant avec lequel il est couplé mécaniquement via des moyens de couplage et pour d'autre part entrainer un arbre fileté du système d'entraînement via une transmission de mouvement;
• la figure 3 est une vue schématique de face du système d'entraînement d'ouvrant selon l'invention ; et
• la figure 4 est une vue en coupe A-A schématique du système d'entraînement d'ouvrant de la figure 3, cette figure 4 illustrant les deuxièmes moyens d'indexation d'écrou.

The invention will be better understood on reading the following description of non-limiting embodiments, with reference to the figures of the appended drawings among which:

• the figure 1 illustrates a horticultural greenhouse with a motorized opening between open and closed positions through the sash drive system according to the invention;
• the figure 2 presents an external view of a casing of the sash drive system according to the invention, here the motor is integrated in the casing and a motor shaft extends through the casing to partly drive the opening with which it is mechanically coupled via coupling means and for further driving a threaded shaft of the drive system via a motion transmission;
• the figure 3 is a schematic front view of the sash drive system according to the invention; and
• the figure 4 is a schematic sectional view AA of the opening drive system of the figure 3 , this figure 4 illustrating the second nut indexing means.

DETAILED DESCRIPTION OF THE INVENTION

The invention relates to a drive system 1 of at least one opening 2 that can be used to drive one or more openings.

• un système d'entraînement 1 selon l'une quelconque des modes de réalisation de l'invention ; et
• un ouvrant 2 mobile suivant une course de l'ouvrant s'étendant entre des première et seconde positions de l'ouvrant (positions ouverte et fermée), cet ouvrant 2 étant entraîné suivant sa course par l'intermédiaire d'un arbre 3 entraîné par le moteur.

The figure 1 has a set 0, in this case a horticultural greenhouse comprising:

• a drive system 1 according to any one of the embodiments of the invention; and
• an opening 2 movable following a stroke of the opening extending between first and second positions of the opening (open and closed positions), this opening 2 being driven along its stroke via a shaft 3 driven by the engine.

• un moteur M entraînant l'arbre 3 pour commander le déplacement de l'ouvrant 2 tel qu'une porte ou un portail ;
• un premier moyen de commande du moteur 4 adapté à adopter sélectivement une configuration d'alimentation électrique du moteur et une configuration de non alimentation électrique du moteur ;
• un deuxième moyen de commande 8 du moteur M adapté à adopter sélectivement une configuration d'alimentation électrique du moteur M et une configuration de non alimentation électrique du moteur M;
• un arbre fileté 5 sur au moins une portion de sa longueur, cet arbre étant monté à rotation selon un premier axe X-X de rotation et étant adapté à être entraîné à rotation par le moteur M selon ce premier axe de rotation X-X ;
• des premier et deuxième écrous 6a, 6b coopérant chacun avec l'arbre fileté 5 pour former chacun une liaison vis-écrou ave l'arbre 5 ;
• des premiers moyens d'indexation 7a agencés pour être sélectivement engagés avec ledit premier écrou 6a et lorsqu'ils sont engagés avec ce premier écrou 6a, ces premiers moyens d'indexation 7a interdisent la rotation dudit premier écrou 6a par rapport à ces moyens d'indexation 7a tout en autorisant le déplacement axial dudit premier écrou 6a le long dudit arbre fileté 5 ;
• des deuxièmes moyens d'indexation 7b agencés pour être sélectivement engagés avec ledit deuxième écrou 6b et lorsqu'ils sont engagés avec ce deuxième écrou 6b, ces deuxièmes moyens d'indexation 7b interdisent la rotation dudit deuxième écrou 6b par rapport à ces deuxièmes moyens d'indexation 7b tout en autorisant le déplacement axial dudit deuxième écrou 6b le long dudit arbre fileté 5.

As indicated earlier and illustrated on figures 2 and 3 , the opening drive system 1 comprises:

• a motor M driving the shaft 3 to control the movement of the opening 2 such as a door or a gate;
• first motor control means 4 adapted to selectively adopt an electrical power supply configuration of the motor and a non-power supply configuration of the motor;
• a second control means 8 of the motor M adapted to selectively adopt a power supply configuration of the motor M and a non-power supply configuration of the motor M;
• a shaft 5 threaded over at least a portion of its length, this shaft being rotatably mounted along a first axis XX of rotation and being adapted to be rotated by the motor M according to this first axis of rotation XX;
• first and second nuts 6a, 6b each cooperating with the threaded shaft 5 to each form a screw-nut connection with the shaft 5;
• first indexing means 7a arranged to be selectively engaged with said first nut 6a and when engaged with this first nut 6a, these first indexing means 7a prohibit the rotation of said first nut 6a relative to these means of indexing 7a while permitting the axial displacement of said first nut 6a along said threaded shaft 5;
• second indexing means 7b arranged to be selectively engaged with said second nut 6b and when engaged with this second nut 6b, these second indexing means 7b prohibit the rotation of said second nut 6b with respect to these second means of indexing 7b while permitting axial displacement said second nut 6b along said threaded shaft 5.

Said at least one first control means 4 of the motor is arranged to be in its feed configuration when the first nut 6a is positioned along a first axial portion P1 of the threaded shaft and to be in its configuration. non-feeding when this first nut 6a is positioned along a second axial portion P2 of the threaded shaft 5 which is distinct from said first axial portion P1.

Said second control means 8 of the motor M is arranged to be in its feed configuration when the second nut 6b is positioned along the first axial portion P1 of the threaded shaft and to be in its non-feeding configuration. when this second nut 6b is positioned along a third axial portion P3 of the threaded shaft 5, the first axial portion P1 being between the second P2 and third P3 axial portions of the threaded shaft 5.

The shaft 3 of the motor M used to drive the opening is also coupled to the threaded shaft 5 via a motion transmission to drive it with a fixed drive ratio such that at any given displacement of the engine corresponds a drive This movement transmission is carried out by a driving pinion carried by the shaft 3 of the motor M, by a driven pinion carried by the threaded shaft 5 and by a chain which connects these driving pinions and conducted between them. Any other transmission of motion between the motor M and the threaded shaft could be used to implement the invention. For example, this transmission of movement could be achieved by pulleys / belt OR by a cascade of gears OR by a rod with conical torques.

The sash drive system 1 according to the invention allows an operator to memorize in the system, mechanically and without tools, the limit positions of the motor M in which he wishes this engine can no longer move to a given direction. When one of these limit positions is reached, that is to say when the first nut 6a passes in the second portion P2 or when the second nut 6b passes into the third portion P3, the motor M can then be controlled only in a direction of movement to move it away from this limit position, that is to say necessarily a direction allowing the return of the nuts to the first portion P1 which is placed between the threaded shaft portions P2 and P3.

The system 1 according to the invention limits the need to use end stops to measure directly on the opening reaching a limit position.

For the understanding of the invention, the term power supply configuration of the motor, when applied to the first control means 4, indicates that the first control means 4 allows the power supply of the motor, which does not imply that the motor is necessarily powered.

Likewise, the term power supply configuration of the motor, when applied to the second control means 8, indicates that this second control means 8 opposes the power supply of the motor, which does not imply that the motor is necessarily not powered.

A motor can indeed be powered if only one of the two control means 4 and 8 is in the power configuration and this even if the other of these control means 4 or 8 is in the non-power configuration.

• lorsque le premier moyen de commande 4 est en configuration de non alimentation, il s'oppose alors à une alimentation du moteur qui induirait une rotation du moteur vers un premier sens, en l'occurrence le premier sens est celui qui force le premier écrou à aller de la première portion P1 de l'arbre 5 vers la deuxième portion P2 ; et
• lorsque le deuxième moyen de commande 8 est en configuration de non alimentation, il s'oppose alors à une alimentation du moteur qui induirait une rotation du moteur vers un second sens opposé audit premier sens, en l'occurrence le second sens est celui qui force le deuxième écrou 6b à aller de la première portion P1 de l'arbre 5 vers sa troisième portion P3 de l'arbre 5.

The wiring of the motor and the first and second control means is such that:

• when the first control means 4 is in the non-power configuration, it then opposes a power supply of the motor which would induce a rotation of the motor towards a first direction, in this case the first direction is that which forces the first nut to go from the first portion P1 of the shaft 5 to the second portion P2; and
• when the second control means 8 is in the non-power configuration, it then opposes a power supply of the motor which would induce rotation of the motor towards a second direction opposite to said first direction, in this case the second direction is that which forces the second nut 6b to go from the first portion P1 of the shaft 5 to its third portion P3 of the shaft 5.

The first nut 6a is a part of revolution having a proper axis of symmetry which coincides with the first axis of rotation of said threaded shaft 5. This first nut has notches at its periphery which, in a particular case, are external grooves. extending each parallel to the axis of symmetry of the first nut 6a.

• une position d'indexation dans laquelle cet index 70a peut pénétrer dans une des encoches ou cannelures dudit premier écrou (6a) afin d'engager ledit premier écrou 6a et ainsi interdire sa rotation par rapport ces premiers moyens d'indexation 7a ; et
• une position de libération dans laquelle cet index 70a est écarté des encoches ou cannelures dudit premier écrou 6a.

The first indexing means 7a have a mobile index 70a between:

• an indexing position in which the index 70a can enter one of the notches or grooves of said first nut (6a) to engage said first nut 6a and thus prohibit its rotation relative to these first indexing means 7a; and
• a release position in which the index 70a is spaced from the notches or grooves of said first nut 6a.

The second nut 6b is a part of revolution having an axis of symmetry of its own and which coincides with said first axis X-X of rotation of said threaded shaft 5. This second nut has notches at its periphery which may be external splines.

• une position d'indexation du deuxième écrou 6b dans laquelle cet index 70b peut pénétrer dans une des encoches ou cannelures dudit deuxième écrou afin d'engager ledit deuxième écrou et ainsi interdire la rotation dudit deuxième écrou 6b par rapport ces deuxièmes moyens d'indexation 7b; et
• une position de libération du deuxième écrou 6b dans laquelle cet index 70b est écarté des encoches ou cannelures dudit deuxième écrou.

The second indexing means 7b have a mobile index 70b between:

• an indexing position of the second nut 6b in which index 70b can penetrate into one of the notches or grooves of said second nut to engage said second nut and thus prohibit the rotation of said second nut 6b with respect to these second indexing means 7b; and
• a release position of the second nut 6b in which the index 70b is spaced from the notches or splines of said second nut.

On the figure 3 the first and second indexing means 7a 7b are seen in dashed lines while in their respective release positions with their indexes 70a, 70b apart from the corresponding nuts 6a and 6b. On this figure 3 , the first and second indexing means 7a 7b shown in solid lines are in their respective indexing positions, the indexes 70a and 70b are respectively engaged with the respective nuts 6a, 6b.

For each of the first and second respective nuts, the notches or external grooves 12 are respectively formed and regularly distributed around the nut. This regular distribution of notches or grooves 12 allows to have an adjustment angle in the nut position which is the regular angle between two grooves of the nut. In the example of the figure 4 , the nut has a number of male or female notches which allows a finer adjustment as the number of notches is important. In this case, here there are 12 notches which are here splines regularly distributed around the periphery of the nut which allows adjustment by twelfth turn of the nut. This number is chosen according to the fineness of adjustment desired for the positioning of the nut. For example, each nut can have 22 splines which allows a very precise angular adjustment of the indexing position of the nut, thus making it possible to accurately memorize the associated end-of-travel positions of the motor M.

The first indexing means 7a are slidably mounted along a Y-Y guide axis parallel to said first X-X axis of rotation of said threaded shaft 5.

In the same way, the second indexing means 7b are slidably mounted along the Y-Y guide axis parallel to said first axis of rotation X-X of said threaded shaft.

Thus these first and second indexing means 7a, 7b are movable as carriages along the Y-axis.

When the first indexing means 7a index the first nut 6a to rotate, any axial displacement of the first nut 6a along the threaded shaft 5 also causes the axial displacement of the first indexing means 7a. For this, the first nut has an annular groove in which is positioned a finger-shaped portion of the first indexing means 7a when indexing the first nut 6a.

Similarly, when the second indexing means 7b index the second nut 6b to rotate, any axial displacement of the second nut 6b along the threaded shaft 5 also causes the axial displacement of the second indexing means 7b. For this, the second nut 6b has an annular groove in which is positioned a finger-shaped portion of the second indexing means 7b when indexing the second nut 6b.

As illustrated in particular figures 2 and 3 each first and second indexing means 7a, 7b and each first and second nut 6a, 6b is disposed inside a same housing 9. This housing protects the screw nut connections, the connector 15 and the means 4 and 8.

Ideally, this housing 9, when closed is sealed, which allows the drive system 1 of the invention to withstand moisture conditions. We note that the connector 15 is part of the system wiring and includes a multi-pin plug and a complementary socket for easy installation and replacement of the system 1.

The first indexing means 7a comprise a manual actuation zone 72a, manually operable, preferably without tools, by an operator to control the disengagement of the first indexing means 7a vis-à-vis said first nut 6a.

In the same way as for the first indexing means 7a, the second indexing means 7b comprise a manual actuation zone 72b, manually operable, preferably without tools, by an operator to control the disengagement of the second means of indexing 7b vis-à-vis said second nut 6b.

It is noted that the manual actuation zones 72a and 72b are accessible to be handled manually and without tools by the operator. As we see on the figure 2 this access to the manual actuation zones 72a, 72b is via an opening 10 of the housing selectively closed by a hatch not shown. A slider 11 has a lumen through which the manual operating zones 72a, 72b pass to prevent the operator from forcing the manual operating zones 72a, 72b beyond actuating limit positions. This strip 11 also forms a cover to limit the manual access area of the operator and thus limit the risk that it does not hurt or damage a masked element placed inside the housing.

The first indexing means 7a comprise an elastic return means 71a of said index 70a towards its indexing position. In this case, as we see on the figure 3 , this elastic return means 71a is a spring which bears against a rear part of the index 70a.

In the same way as for the first means indexing 7a, the second indexing means 7b comprise an elastic return means 71b, in this case a spring which bears against a rear part of the index 70b, to recall this index 70b of said second means of indexing 7b to its indexing position.

As we see on the figure 3 , the first control means 4 of the motor comprises first and second switches 4a, 4b. The first switch 4a is actuated by the first nut 6a when it is opposite a first axial position placed in the second axial portion P2 of the threaded shaft 5. The second of these switches 4b is actuated by the first nut 6a when it is opposite a second axial position placed in the second axial portion P2 of the threaded shaft. This second axial position is offset from the first axial position and further from the first portion P1 than is the first position of the first nut.

According to this preferred embodiment, the first and second switches 4a, 4b of the first motor control means are connected in series so that in case of malfunction of one of these switches, the other detects the passage of said first nut in the second axial portion of the tree.

Similar to what has just been described for the first control means 4, the second control means 8 of the motor M comprises first and second switches 8a, 8b. This first switch 8a is actuated by the second nut 6b when it is opposite a first axial position, specific to this second nut, placed in the third axial portion P3 of the threaded shaft 5. The second of these switches 8b is actuated by the second nut 6b when it faces a second axial position, specific to the second nut 6b and placed in the third axial portion P3 of the threaded shaft. This second axial position of the second nut is offset from the first axial position of the second nut and further from the first portion P1 than is the first position of the second nut.

According to this preferred embodiment, the first and second switches 8a, 8b of the second control means 8 of the motor M are connected in series so that in case of malfunction of one of these switches 8a, 8b, the other detects the passage of said first nut in the second axial portion of the shaft.

Although it has been described that the first and second control means 4 and 8 may comprise switches, they may also include nut proximity sensors with or without contact.

Thanks to the manual operating zones 72a and 72b and the knurled nuts 6a and 6b, the drive system according to the invention can be adjusted manually, without any tools, which greatly facilitates the intervention of the operator while allowing him to memorize precise positions of end of motor stroke M.

Claims (14)

Drive system (1) of an opening (2) comprising: - a motor (M) driving a shaft (3) to control the movement of an opening (2) such as a door, a gate, a window, a flap, a hatch, a flap, a partition, or winding a canvas, a net, a protective film, a tarpaulin; at least a first motor control means (4) adapted to selectively adopt an electrical power supply configuration of the motor and a non-power supply configuration of the motor; characterized in that the system (1) comprises: a threaded shaft (5) over at least a portion of its length, this threaded shaft (5) being mounted for rotation along a first axis (XX) of rotation and being adapted to be rotated by the motor (M) according to this first axis of rotation (XX); - at least a first nut (6a) cooperating with the threaded shaft (5) so as to form a screw-nut connection between the threaded shaft (5) and the first nut (6a); at least first indexing means (7a) arranged to selectively engage with said first nut (6a) and when they are engaged with this first nut (6a), these first indexing means (7a) prohibit the rotating said first nut (6a) relative to these indexing means (7a) while permitting the axial displacement of said first nut (6a) along said threaded shaft (5); said at least one first motor control means (4) is arranged to be in its feed configuration when the first nut (6a) is positioned along a first axial portion (P1) of the threaded shaft and to be in its non-feeding configuration when this first nut (6a) is positioned along a second axial portion (P2) of the shaft threaded thread (5) which is distinct from said first axial portion (P1). Drive system according to claim 1, further comprising: - a second nut (6b) cooperating with the threaded shaft (5) so as to form a screw-nut connection between the threaded shaft (5) and the second nut (6b); and at least second indexing means (7b) arranged to selectively engage with said second nut (6b) and when they are engaged with this second nut (6b), these second indexing means (7b) prohibit the rotating said second nut (6b) with respect to said second indexing means (7b) while permitting the axial displacement of said second nut (6b) along said threaded shaft (5); at least one second motor control means (8) adapted to selectively adopt an electrical power supply configuration of the motor (M) and a non-power supply configuration of the motor (M); and said at least one second motor control means (8) is arranged to be in its feed configuration when the second nut (6b) is positioned along the first axial portion (P1) of the threaded shaft and to be in its non-feeding configuration when this second nut (6b) is positioned along a third axial portion (P3) of the threaded shaft (5), the first axial portion (P1) being between the second (P2) and third (P3) axial portions of the threaded shaft (5). Drive system according to claim 1, wherein: the control system comprises at least a second motor control means adapted to selectively adopt an electrical power supply configuration of the motor and a configuration of non-power supply of the motor; engine; and in which said at least one second motor control means is arranged to be in its feed configuration when the first nut is positioned along the first axial portion of the threaded shaft and to be in its non-feeding configuration when this first nut is positioned along a third axial portion of the threaded shaft, the first axial portion being between the first and second axial portions. Drive system according to any one of claims 1 to 3, wherein said first nut (6a) is a part of revolution having a proper axis of symmetry which coincides with said first axis of rotation of said threaded shaft (5), this first nut having notches at its periphery, said first indexing means (7a) have an index 70a movable between: an indexing position in which this index (70a) can penetrate into a notches of said first nut (6a) so as to engage said first nut (6a) and thus prevent its rotation relative to these first indexing means (7a) ; and - A release position in which the index (70a) is spaced from the notches of said first nut (6a). Drive system according to claim 4, wherein said first indexing means (7a) comprises an elastic return means (71a) of said index (70a) towards its indexing position. A drive system as claimed in any one of claims 1 to 5, wherein said first indexing means (7a) comprises a manually operable, tool-free, manual operating zone (72a) by an operator to control the disengagement of the first indexing means (7a) vis-à-vis said first nut (6a). Drive system according to any one of Claims 1 to 6, wherein said first indexing means (7a) are slidably mounted along a guide axis (YY) parallel to said first axis of rotation (XX) of said threaded shaft (5). A drive system as claimed in any one of claims 1 to 7, wherein said at least one first motor control means (4) comprises first and second switches (4a, 4b); the first of these switches being actuated by the first nut (6a) facing a first axial position placed in the second axial portion (P2) of the threaded shaft (5); and the second of these switches (4b) being actuated by the first nut (6a) facing a second axial position placed in the second axial portion (P2) of the threaded shaft, this second axial position being displaced by the first axial position. Drive system according to one of the preceding claims, wherein each indexing means (7a, 7b) and each nut (6a, 6b) cooperating with the threaded shaft (5) to form a screw connection. nut is disposed within the same housing (9). Drive system according to any one of the preceding claims, combined with claim 2, wherein said second nut (6b) is a part of revolution having an axis of symmetry of its own and which coincides with said first axis ( XX) of rotation of said threaded shaft (5), this second nut comprises notches at its periphery, said second indexing means (7b) have a movable index (70b) between: an indexing position of the second nut (6b) in which this index (70b) can penetrate into one of the notches of said second nut in order to engage said second nut and thus prevent the rotation of said second nut (6b) with respect to these second indexing means (7b); and a position of release of the second nut (6b) in which index (70b) is spaced from the notches of said second nut. Drive system according to claim 10, wherein said second indexing means (7b) comprises an elastic return means (71b) of said index (70b) of said second indexing means (7b) to the indexing position. A drive system as claimed in any one of the preceding claims combined with claim 2, wherein said second indexing means (7b) comprises a manual operating zone (72b) manually operable by an operator to control the disengagement second indexing means (7b) vis-à-vis said second nut. A drive system according to any one of the preceding claims combined with claim 2, wherein said second indexing means (7b) are slidably mounted along a guide axis (YY) parallel to said first axis of rotation (XX) of said threaded shaft. Set (0) comprising: - A drive system (1) according to any one of the preceding claims; and - An opening (2) movable along a stroke of the opening extending between first and second positions of the opening, this opening (2) being driven along its stroke via said shaft (3) driven by the motor.

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