EP2896588A1 - Foldable elevator door with power hinge(s) - Google Patents

Abstract

The present invention relates to a folding elevator door comprising:
- a closure member (9) for attachment to a fixed structure defining a passage, the closure member (9) being arranged to obstruct the passage to a closed position and release the passage to an open position;
- a guide system (25) of the closure element (9) between the closed position and the open position;
at least one driving element (39) of the closing element (9) between the open position and the closed position,

the closing element (9) comprising a set of leaves, in which two successive leaves (11, 17) are connected by a pivot connection at a cooperation zone (21), and in which an end leaf (11) is connected by a pivot connection to the fixed structure (5),
the drive element (39) being arranged to drive in relative rotation a first leaf of the assembly (11) with respect to a second successive leaf of the leaf assembly (17) at at least one zone cooperation.

Description

The present invention relates to a folding elevator door, and the motorization of such a door.

It is known from the prior art folding doors of elevators having a series of at least two hinged leaves. The actuation of these leaves, subject to the action of a guiding system, allows the opening and closing of the folding elevator door.

The folding door actuating device is traditionally arranged above or below the leaves in the door structure, which generates a large space requirement, and may limit the height of the entrance passage in the elevator car. .

Furthermore, the driving of the leaves is achieved by a rotation around the hinge connecting the series of leaves to the fixed structure of the door of the elevator car. When starting the closing movement of the door, significant forces perpendicular to the guide direction are generated. These forces can generate bracing phenomena or twisting leaves of great length.

The present invention aims to solve all or part of the disadvantages mentioned above.

• un élément de fermeture destiné à être rapporté sur une structure fixe définissant un passage, l'élément de fermeture étant agencé pour obstruer le passage en une position fermée et libérer le passage en une position ouverte ;
• un système de guidage de l'élément de fermeture entre la position fermée et la position ouverte ;
• au moins un élément d'entraînement de l'élément de fermeture entre la position ouverte et la position fermée,

l'élément de fermeture comprenant un ensemble de vantaux, dans lequel deux vantaux successifs sont reliés par une liaison pivot au niveau d'une zone de coopération, et dans lequel un vantail d'extrémité est relié par une liaison pivot à la structure fixe,
l'élément d'entraînement étant agencé pour entraîner en rotation relative un premier vantail de l'ensemble par rapport à un second vantail successif de l'ensemble de vantaux au niveau d'au moins une zone de coopération.For this purpose, the present invention relates to a folding elevator door comprising:

• a closure member for attachment to a fixed structure defining a passage, the closure member being arranged to obstruct the passage into a closed position and to release the passage to an open position;
• a system for guiding the closure element between the closed position and the open position;
• at least one driving element of the closing element between the open position and the closed position,

the closing element comprising a set of leaves, wherein two successive leaves are connected by a pivot connection at a cooperation zone, and in which an end leaf is connected by a pivot connection to the fixed structure,
the drive element being arranged to drive in relative rotation a first leaf of the assembly relative to a second successive leaf of the set of leaves at at least one cooperation zone.

According to one aspect of the invention, in the closed position, the driving element is arranged in the extension of the leaves, the width of the folded closure element therefore being equal to the width of the actuating element. Thus, the space generated by the actuating element is limited.

According to one aspect of the invention, the actuating element exerts a torque between the successive leaves that it drives.

According to one aspect of the invention, the actuating element comprises a first portion secured to one of the successive leaves and a second portion secured to the other leaf.

Thanks to the provisions of the invention, bracing phenomena are avoided. Indeed, the occurrence of counter-reactions that may affect the proper functioning of the closure element is avoided. The direction of the forces induced by the driving element on the guidance system is oriented along the path of the guidance system. Thus, the folding door according to the invention will allow the installation of leaves of larger size.

• un contact de sécurité est rapporté sur l'élément de fermeture, dont une première partie est disposée sur le vantail menant ou bien sur le vantail mené et une seconde partie est disposée sur l'élément de guidage, en regard de la première partie lorsque l'élément de fermeture est en position fermée ;
• l'élément d'entraînement est alimenté par un élément de raccordement électrique logé dans un conduit ménagé dans le vantail d'extrémité ;
• l'élément d'entraînement est un actionneur rotatif ;
• l'axe de rotation de la liaison pivot entre les vantaux de l'élément de fermeture et l'axe de rotation de l'élément d'entraînement sont confondus ;
• l'axe de rotation de la liaison pivot entre les vantaux de l'élément de fermeture et l'axe de rotation de l'élément d'entraînement sont sécants ;
• la porte d'ascenseur comprend un second élément de fermeture relié à la structure fixe, le premier élément de fermeture étant relié à un premier bord de la structure fixe par une liaison pivot et le second élément de fermeture étant relié, par une liaison pivot, à un deuxième bord de la structure fixe, opposé au premier bord ;
• la porte d'ascenseur comprend un dispositif de synchronisation de l'élément d'entraînement du premier élément de fermeture et d'un élément d'entraînement agencé pour entraîner le second élément de fermeture ;
• l'élément de fermeture comprend une suite comprenant au moins quatre vantaux successifs reliés respectivement au niveau de trois zones de coopération et deux éléments d'actionnement positionnés au niveau d'une première zone de coopération et d'une troisième zone de coopération, une deuxième zone de coopération étant dépourvue d'élément d'actionnement ;
• l'élément de fermeture comprend une suite comprenant au moins quatre vantaux successifs reliés respectivement au niveau de trois zones de coopération et un élément d'actionnement positionné au niveau d'une deuxième zone de coopération, une première zone de coopération et une troisième zone de coopération étant dépourvues d'élément d'actionnement ;
• le système de guidage comprend une première partie disposée dans la structure fixe, et une deuxième partie complémentaire rapportée sur l'élément de fermeture ;
• la première partie du système de guidage se présente sous la forme d'un rail ;
• le rail s'étend selon une trajectoire rectiligne ;
• la deuxième partie du système de guidage se présente sous la forme d'un élément prisonnier du rail et fixé sur le vantail mené, par exemple, un galet ou un patin.

According to other optional features of the folding elevator door according to the invention:

• a safety contact is attached to the closure element, a first part of which is arranged on the driving leaf or on the driven leaf and a second part is arranged on the guide element, facing the first part when the closing element is in closed position;
• the driving element is fed by an electrical connection element housed in a duct formed in the end leaf;
• the driving element is a rotary actuator;
• the axis of rotation of the pivot connection between the leaves of the closure element and the axis of rotation of the driving element coincide;
• the axis of rotation of the pivot connection between the leaves of the closure element and the axis of rotation of the driving element are secant;
• the elevator door comprises a second closure element connected to the fixed structure, the first closure element being connected to a first edge of the fixed structure by a pivot connection and the second closure member being connected, by a pivot connection, to a second edge of the fixed structure, opposite to the first edge;
• the elevator door comprises a device for synchronizing the driving element of the first closure element and a driving element arranged to drive the second closure element;
• the closure element comprises a series comprising at least four successive leaves connected respectively at three cooperation zones and two actuating elements positioned at a first cooperation zone and a third cooperation zone, a second zone of cooperation being devoid of actuating element;
• the closure element comprises a series comprising at least four successive leaves connected respectively at three cooperation zones and an actuating element positioned at a second cooperation zone, a first cooperation zone and a third zone of cooperation. cooperation being devoid of actuating element;
• the guide system comprises a first portion disposed in the fixed structure, and a second complementary portion attached to the closure member;
• the first part of the guide system is in the form of a rail;
• the rail extends along a rectilinear path;
• the second part of the guide system is in the form of a prison element of the rail and fixed on the driven leaf, for example, a roller or a pad.

According to one aspect of the invention, the elevator door can be a landing door or a cabin door indifferently.

• les figures 1a et 1b représentent une cabine d'ascenseur avec et sans élément de fermeture ;
• la figure 2 représente deux éléments de fermeture ;
• la figure 3 représente un système de guidage des éléments de fermeture ;
• les figures 4a et 4b représentent un élément d'actionnement d'éléments de fermeture ;
• la figure 5 représente un détecteur de sécurité d'un élément de fermeture ;
• la figure 6 représente un élément de fermeture en position ouverte, ainsi que les efforts générés par l'élément d'actionnement lors du démarrage du mouvement de fermeture ;
• la figure 7 représente un élément de fermeture en position fermée, ainsi que les efforts générés par l'action de l'élément d'actionnement pour le démarrage du mouvement d'ouverture ;
• la figure 8 représente un élément de fermeture comprenant trois vantaux dans un troisième mode de réalisation.
• la figure 9 représente un élément de fermeture comprenant quatre vantaux et deux éléments d'actionnement dans un quatrième mode de réalisation ;
• la figure 10 représente un élément de fermeture comprenant quatre vantaux et un élément d'actionnement dans un cinquième mode de réalisation ;
• les figures 11 a et 11 b représentent un élément d'actionnement d'un élément de fermeture comprenant deux vantaux dans un sixième mode de réalisation, l'axe de l'élément d'actionnement et l'axe de la liaison pivot entre les vantaux étant distincts.

Other features and advantages of the present invention will emerge in the light of the following description and the examination of the appended figures, in which:

• the Figures 1a and 1b represent an elevator car with and without closure element;
• the figure 2 represents two closure elements;
• the figure 3 represents a guide system of the closure elements;
• the Figures 4a and 4b represent an element for actuating closure elements;
• the figure 5 represents a security detector of a closure element;
• the figure 6 represents a closing element in the open position, as well as the forces generated by the actuating element when starting the closing movement;
• the figure 7 represents a closing element in the closed position, as well as the forces generated by the action of the actuating element for starting the opening movement;
• the figure 8 represents a closure element comprising three leaves in a third embodiment.
• the figure 9 represents a closure element comprising four leaves and two actuating elements in a fourth embodiment;
• the figure 10 represents a closure element comprising four leaves and an actuating element in a fifth embodiment;
• the figures 11 a and 11b represent an actuating element of a closing element comprising two leaves in a sixth embodiment, the axis of the actuating element and the axis of the pivot connection between the leaves being distinct.

In all of these figures, identical or similar references denote identical or similar members or sets of members.

According to a first embodiment of the invention, the elevator car 3 comprises a fixed structure 5 represented in figure 1a . The fixed structure 5 comprises a threshold 5a and a pediment 5b which delimit a passage 7 which allows the entry and exit of the passengers in the elevator car 3.

As represented in figure 1b two closing elements 9, 9 'allow opening and closing of the passage 7 defined by the fixed structure 5. The closing elements 9, 9' are symmetrically attached to the fixed structure 5. The closure elements 9 , 9 'are movable symmetrically with respect to the fixed structure 5. The closure elements 9, 9' are connected to the fixed structure 5 each by a pivot connection. In this embodiment, the closure elements 9, 9 'each comprise two successive leaves.

As represented in figure 2 , one of the successive leaves, called "leading leaf" 11 connects the closure member 9 to the fixed structure 5 by a pivot connection at its edge 13. At its opposite edge 15, the leaf is connected to the second leaf, The two leaves 11, 17 are connected by a pivot connection included in a cooperation zone 21. The cooperation zone 21 comprises connecting elements of the two leaves 11, 17. zone 21 is defined between the two leaves 11, 17, substantially in their extension. The edge 23 of the led leaf 17, opposite the edge 19, is free. The closure element 9 'has the same symmetrical characteristics as the closure element 9: the driving leaf 11' and the driven leaf 17 'are mounted symmetrically to the leaves 11 and 17.

The figures 3 , 4a , 4b , 5 , 6 and 7 represent a door half 1 and only the closure element 9. The closure element 9 'has the same symmetrical characteristics.

As represented in figure 3 and in figure 5 a guide system 25 guides the leaves 11, 17 during their movements. The guiding system 25 comprises two rectilinear rails 27, 29 formed in the fixed structure 5, the rail 27 being formed in the threshold 5a of the fixed structure 5 and the rail 29 being formed in the pediment 5b of the fixed structure 5. guidance system 25 comprises a roller 31, associated with the rail 27, and connected to the driven leaf 17 via a support 35. The guide system 25 also comprises a roller 33, associated with the rail 29, and connected to the leaf conducted by means of a support 37. The rollers 31, 33 are able to be inserted and to slide in the rails 27, 29 in order to guide the closing element 9.

As represented in figure 4a , a driving element 39 is arranged in the cooperation zone 21 between the leaves 11, 17 and allows their displacements. The driving element 39 is, in this embodiment, a rotary motor. The axis of rotation of the rotary motor 39 is coincides with the axis of rotation of the pivot connection between the leaves 11, 17. One of the leaves 11, 17 is connected to the stator 41 of the rotary engine, while the other leaf 11, 17 is connected to the rotor 43 of the rotary engine 39, which allows the relative movement of the leaves during the operation of the rotary motor 39. The rotary motor 39 is arranged in the extension of the leaves 11, 17 when the leaves are folded and the space generated is thus limited. The rotary motor 39 is powered by an electrical connection element 45 housed in a duct formed in the driving leaflet 11. The rotary motor 39 may be covered by a protective or covering element 46, shown in FIG. figure 4b .

Furthermore, a second driving element is arranged in the cooperation zone 21 'and a synchronization device allows synchronized driving of the closure elements 9 and 9'.

The closure element 9 comprises a security detector 47 represented in figure 5 . The safety detector 47 comprises a male part 49 and a female part 51. The male part 49 is attached to one of the leaves, in this example the driving leaf 11 and the female part 51 is attached to the fixed structure. The female part 51 is able to be inserted into the male part 49 in order to detect the position of the closure element 9.

The closing elements 9, 9 'of the door 1 are able to occupy an open position, in which the passage 7 defined by the fixed structure 5 is free, and a closed position in which the passage 7 defined by the fixed structure 5 is obstructed.

In open position, represented in figure 6 , the surfaces 53 and 55 of the leaves 11, 17 are adjacent and perpendicular to the surface defined by the passage 7. The leaves 11, 17 are thus folded and the actuating element 39 is arranged in their extension. The total thickness of the folded closure element 9 is therefore equal to the diameter of the actuating element 39. This configuration makes it possible to limit the space requirement generated by the actuating element 39.

In closed position, represented in figure 7 the surfaces 53, 55 of the leaves 11, 17 are aligned. The edges 15 and 19 of the leaves 11, 17 are opposite, the rotary motor 39 being located between the two. The male part 49 and the female part 51 of the security detector 47 are in contact and the closed position of the closure element 9 is detected.

During the transition from the open position to the closed position, the rotary motors 39 are actuated synchronously by means of the electrical connection elements 45 housed in the ducts formed in the driving leaves 11, 11 '. The torques generated by the rotary motors 39 separate the leaves 11, 17 and the leaves 11 'and 17' and rotate them. The movements of the closure element 9 during its passage from the open position to the closed position are represented by the arrows F1 in figure 6 .

During the transition from the closed position to the open position, the torques generated by the rotary motors 39 bring the leaves 11, 17 and 11 ', 17' closer and rotate them in a synchronized manner. The movements of the closure element 9 during its passage from the closed position to the open position are represented by the arrows F2 in figure 7 .

For example, when the closure element 9 is actuated, the driving leaf 11 pivots with respect to the fixed structure 5, and the driven leaf 17 pivots with respect to the driving leaflet 11. The rollers 31, 33 slide in a translational movement in the rails 27, 29 and guide the closure element 9 to its closed position or to its open position. The forces generated by the torque generated by the rotary motor 39 follow a direction substantially parallel to the path of the rollers 31, 33. The same operation is observed during the actuation of the closure element 9 '. The bracing phenomena are thus avoided.

According to a second embodiment, the elevator door 1 comprises only a closure element 9 fixed to the fixed structure by a pivot connection. The closure element 9 is able, by itself, to obstruct the passage 7 in the closed position.

According to a third embodiment, represented in figure 8 , the closing element 9 comprises three successive leaves a first leaf called "end" 11, a second leaf 17 and a third leaf 61. The first leaf 11 is connected to the fixed structure 5 by a pivot connection. The second leaf 17 is connected to the first leaf 11 by a pivot connection at a first cooperation zone 21a and the third leaf 61 is connected to the second leaf 17 by a pivot connection at a second cooperation zone 21 b. A first actuating element 39a is located in the cooperation zone 21a, and a second operating element 39b is located in the cooperation zone 21b. The actuating elements 39a and 39b allow the passage of the closure element 9 from its open position to its closed position and vice versa. In the open position, the surfaces of the leaves 11, 17, 61 are adjacent parallel. In the closed position, the surfaces of the leaves 11, 17, 61 are aligned. According to an alternative to this embodiment, the door 1 comprises two closure elements 9 and 9 'each comprising three successive leaves. The closure element 9 'comprising identical characteristics symmetrically to the closure element 9. The door also comprises a synchronization device between the driving elements of the closure elements 9 and 9'.

According to a fourth embodiment represented in figure 9 , the closure element 9 comprises four successive leaves 11, 17, 61, 63 interconnected at three cooperation zones 21a, 21b, 21c respectively. The four leaves 11, 17, 61, 63 can ensure the passage from the closed position to the open position of the closure element 9 by means of two actuators 39a, 39b arranged to drive the leaves 11, 17 and 61, 63 respectively at cooperation zones 21a and 21c respectively. The cooperation zone 21b is devoid of an actuating element and comprises the connecting elements of the leaves 17 and 61 arranged to form a pivot connection. The guidance system comprises two rails 29a, 29b formed in the pediment 5b of the fixed structure 5. A roller 33a is connected via a support to the blade 17 and is slidable in the rail 29a. A roller 33b is connected via a support 37b to the blade 63 and is slidable in the rail 29b. The guidance system comprises similar guiding elements at the threshold 5a of the fixed structure 5.

According to a fifth embodiment represented in figure 10 , the closing element 9 also comprises a series of four leaves 11, 17, 61, 63 successive interconnected at three cooperation zones 21a, 21b, 21c. The transition from the open position to the closed position of the closing element 9 is achieved by means of an actuator 39a arranged to drive the second cooperation zone 21b. The first cooperation zone 21a and the third cooperation zone 21c are devoid of an actuating element and comprise the connecting elements of the leaves 11 and 17 and the leaves 61 and 63 respectively arranged so as to form a pivot connection. The guiding system comprises two rails 29a, 29b formed in the pediment 5b of the fixed structure 5. A roller 33a is connected by via a support to the wing 17 and is slidable in the rail 29a. A roller 33b is connected via a support 37b to the blade 63 and is slidable in the rail 29b. The guidance system comprises similar guiding elements at the threshold 5a of the fixed structure 5.

According to a sixth embodiment represented in Figures 11a and 11b , the actuating element 39 is attached to the surface 55 of the leaf 17 and not to the zone of cooperation 21. The actuating element 39 causes the pivot connection to rotate and thus allows the passage of the closure element 9 from its open position to its closed position.

Of course, the present invention is not limited to the embodiments described and shown, provided by way of illustrative and non-limiting examples.

Claims (8)

Folding elevator door comprising: a closure element (9) intended to be attached to a fixed structure (5) defining a passage (7), the closure element (9) being arranged to obstruct the passage (7) in a closed position and to release the passage (7) in an open position; - a guide system (25) of the closure element (9) between the closed position and the open position; at least one driving element (39) of the closing element (9) between the open position and the closed position, the closing element (9) comprising a set of leaves, in which two successive leaves (11, 17) are connected by a pivot connection at a cooperation zone (21), and in which an end leaf (11) is connected by a pivot connection to the fixed structure (5),
the drive element (39) being arranged to drive in relative rotation a first leaf of the assembly (11) with respect to a second successive leaf of the leaf assembly (17) at at least one zone cooperation. Elevator door according to claim 1, wherein the driving element (39) is fed by an electrical connecting element (45) formed in the end leaf (11). Elevator door according to one of claims 1 or 2, wherein the axis of rotation of the pivot connection between the leaves (11, 17) of the closure member (9) and the axis of rotation of the driving element (39) are merged. Elevator door according to one of claims 1 or 2, wherein the axis of rotation of the pivot connection between the leaves (11, 17) of the closure member (9) and the axis of rotation of the driving element (39) are secant. Lift door according to one of the preceding claims, comprising a second closure element (9 ') connected to the fixed structure (5), the first closure element (9) being connected to a first edge (12) of the fixed structure (5) by a pivot connection and the second closure element (9 ') being connected, by a pivot connection, to a second edge of the fixed structure (5), opposite to the first edge (12). Elevator door according to claim 5, comprising a device for synchronizing the driving element (39) of the first closure element (9) and a driving element (39 ') arranged to drive the second element closure (9 '). Elevator door according to one of the preceding claims, wherein the closure element (9) comprises a sequence comprising at least four successive leaves connected respectively at three zones of cooperation and two actuating elements positioned at the level of a first zone of cooperation and a third zone of cooperation, a second zone of cooperation being devoid of element of actuation. Elevator door according to one of the preceding claims, wherein the closure element (9) comprises a sequence comprising at least four successive leaves connected respectively at three cooperation zones and an actuating element positioned at the level of three a second zone of cooperation, a first zone of cooperation and a third zone of cooperation being devoid of element of actuation.

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