EP0117862B1 - Lifting device, in particular a working-platform - Google Patents
Lifting device, in particular a working-platform Download PDFInfo
- Publication number
- EP0117862B1 EP0117862B1 EP19840870025 EP84870025A EP0117862B1 EP 0117862 B1 EP0117862 B1 EP 0117862B1 EP 19840870025 EP19840870025 EP 19840870025 EP 84870025 A EP84870025 A EP 84870025A EP 0117862 B1 EP0117862 B1 EP 0117862B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- appliance
- nacelle
- flywheel
- motor
- lifting
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66D—CAPSTANS; WINCHES; TACKLES, e.g. PULLEY BLOCKS; HOISTS
- B66D5/00—Braking or detent devices characterised by application to lifting or hoisting gear, e.g. for controlling the lowering of loads
- B66D5/02—Crane, lift hoist, or winch brakes operating on drums, barrels, or ropes
- B66D5/12—Crane, lift hoist, or winch brakes operating on drums, barrels, or ropes with axial effect
- B66D5/14—Crane, lift hoist, or winch brakes operating on drums, barrels, or ropes with axial effect embodying discs
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66D—CAPSTANS; WINCHES; TACKLES, e.g. PULLEY BLOCKS; HOISTS
- B66D1/00—Rope, cable, or chain winding mechanisms; Capstans
- B66D1/60—Rope, cable, or chain winding mechanisms; Capstans adapted for special purposes
- B66D1/74—Capstans
- B66D1/7415—Friction drives, e.g. pulleys, having a cable winding angle of less than 360 degrees
Definitions
- the present invention relates to a lifting machine in particular a generally rectangular, motorized, suspended nacelle which is called upon to move from bottom to top and vice versa along a facade of a building or other edifice.
- the lifting device or nacelle according to the present invention is significantly simplified compared to existing devices and safer than the latter, because, on the one hand, it is in fact provided with only one motor, electric or fuel like gasoline, fuel oil, and, on the other hand, it moves along chains, fixed by one of their ends to the top of the aforesaid facade, which makes it possible to eliminate the winches which are the least reliable elements of said type of gear.
- this lifting machine in particular a nacelle is characterized in that on the one hand, in its longitudinal center are aligned, a motor which can be coupled by a first transmission shaft to a generally hydraulic reversing coupler, for example controlled by a pneumatic cylinder making it possible to reverse the direction of the nacelle relative to the motor which always turns it in the same direction, this coupler is coupled by a second transmission shaft to a reduction gear, possibly reduction gear, intended to return at right angles the motor movement, and second transmission shaft carrying interposed, between the coupler and the reduction gear, a flywheel integral with said shaft which can be slowed down and blocked by a jaw braking device, taking on the flywheel, the opening of which does not is obtained only by pressing on a control means, and reducing, angle gear, which, on the other hand, causes, perpendicular to the transverse alignment, on both sides, a third drive shaft at the ends of which is placed a lifting nut on which a chain takes.
- a motor which can be coupled by a first transmission shaft
- provision may be made for using a motor with a double direction of rotation, which may be the case for a single-phase electric motor and which will make the reversing coupler useless, this latter function being provided by the motor. .
- this type of motor has a magnetic brake which will operate in the event of a power failure.
- link chains it should however be understood that it is also possible to use roller chains, chains comprising plates and pins as well as chains of the Galle type or chains. by bike or even marine chains. It is always also possible, to meet very strict safety regulations, to double on each side of the nacelle, the suspension system of the nacelle.
- the nacelle be immobilized when it is overloaded and this beyond a determined weight
- an obstacle for example an open window
- the motor is one-way of rotation, it will serve both to drive the ascent and descent of the nacelle; the jaw braking device is biased by a spring which tends to close the jaw unless the spring is compressed, which it is intended to be able to do, for example by means of a pneumatic cylinder, so as to block all in the event of a breakdown, by a compressed air exhaust system.
- the steering wheel may comprise a second emergency braking device, possibly also with a jaw, which intervenes as soon as the steering wheel is driven at a speed greater than a desired speed, the steering wheel preferably comprising a part which according to the principle of the counterweight , will disengage from the circle formed by the steering wheel and release the second braking device.
- the lifting nut which ends the third transmission arm and nut on which the chain takes, can be placed in a housing or box such that the chain cannot disengage from the toothed nut by any slack in the chain; moreover, if this nut is not centered on the transverse lateral side of the nacelle, one or two directional nuts are provided, toothed or not, superimposed and placed in the transverse central alignment of the nacelle, one being higher and the other lower than the driving nut ; these two nuts can also be provided in the same housing or box as the lifting nut, and possibly driven relative to the transmission axis by a chain and sprockets system.
- the control panel (17) with push buttons (18, 18 ') is connected, on the one hand, by a conduit (19) to the compressor (15) and, on the other hand, by another conduit (20) , to the reversing coupler (4), a common conduit (21) connecting the two conduits (19 and 20) to the panel (17). Furthermore, the compressor (15) is also connected, by a double duct (22, 22a, 22b) to valves (23, 24) placed above and below the nacelle on the passage of the chain (14) .
- valves (23, 24) and possibly, on the other side, conduits (22 ', 22'a, 22'b) cooperating with valves (23', 24 ') placed on the passage of the chain (14 ') will be opened by an upper pawl (25) (possibly (25') on the other side) and a lower pawl (26) (possibly (26 ') on the other side), these pawls (25, 26) ( and optionally (25 ', 26') are attached one (25) or some (25, 25 ') near the upper end of the chain (s) (14, 14') near their attachment point and the other (26) or the others (26, 26 ') and at the lower end of the chain or chains (14, 14') near the place where the chains rest on the ground.
- boxes or housings (11, 11 ') are in two parts (11a, 11b), parts joined to each other by screws (27).
- an emergency braking device (28) which operates automatically and which will intervene if for any reason during the descent of the nacelle (1) (and possibly the ascent although this is less important) the speed had to exceed a determined and desired speed and appreciably higher than the slow speed at which normally the gondola (1) will be driven by the motor (2).
- This emergency braking device (28) will act as the braking device (8) on the steering wheel (7) and is also a jaw brake (29, 30) closing under the action of a spring (not visible in Figure 7) but brake which in principle is kept open by a wedge or prop (31).
- this wedge or prop (31) is however ejectable and there is provided for this purpose a trigger (32), moving part placed at the perimeter of the steering wheel (7) which when the speed of said flywheel exceeds a certain speed tends to move away from the outer circle of the flywheel (9) and will therefore strike the shim or prop (31) and eject it so that the brake shoes (29, 30) come to brake, then lock the flywheel (7 ) which causes the descent of the nacelle (1) to stop.
- the operation of the nacelle is very simple. After starting the engine (2); for the raise, push the button (18) with your finger, which releases the flywheel (7) from the jaw brake (8), the compressor, pneumatic cylinder (15) driving in the spring (16) and the control of another pneumatic cylinder (not shown) of the reversing coupler (4), which allows the motor (2) to rotate the various transmission shafts (3, 5, 10, 10 '), the latter (10, 10 ') causing the nuts (12, 12') to rotate which will mesh with the chains (14, 14 '), which forces the nacelle to rise.
- the brake shoe (8) closes and the coupler (4) is put in neutral and the nacelle will be braked then stopped in its rise.
- the operation of the reversing coupler (4) also requested by the button (18 ') allows the motor (2) to drive in rotation (opposite to what is described above), at a desired speed, the various transmission shafts (3, 5, 10, 10 '), the latter driving the rotation of the lifting nuts (12, 12') which will mesh on the chains (14, 14 '), which will lower the Platform. More particularly for the descent of the nacelle, it is the reversing coupler (4) which will limit, by reducing and braking, the speed of rotation of the motor and therefore, the speed of the descent (or ascent) of the nacelle (1). Each time that the pressure on the button (18 ') is released, the jaw brake (8) closes and the descent of the nacelle is braked, then stopped.
- the descent of the nacelle (1) should be done at a speed exceeding the admissible limits (or even the ascent although this is practically not possible because in uphill, the weight and the load of the nacelle of course not intervene), this will cause the lifting nuts (12, 12 '), the drive shafts (10, 10', 5, 3) to rotate at higher speeds than those allowed and also therefore the flywheel (7) which, from a determined speed of rotation, will request the trigger (32) which will eject the shim or prop (31) and therefore cause the emergency braking device (28) to operate ).
- the hydraulic reversing coupler (4) of the nacelle can be provided with a bypass system (bypass) allowing a limiting adjustment relative to the maximum permitted load; this system can also apply to any other lifting device where it is also essential to provide this adaptation.
- the pneumatic cylinders for releasing the braking device (8) as for controlling the reversing coupler (4) can be either pressure or decompression.
- FIG. 2 there is also shown, by (33, 33 ′) (FIG. 2) two bearings by which the floating chassis (34), carrying the motor (2) and the other elements (3, 4, 5, 7, 8, 6), is held to the structure of the nacelle (not shown).
- the floating chassis (34) is capable of descending on the side where it is free, that is to say on the side opposite the bearings (33, 33 '), according to the arrow (35), is normally maintained horizontally by a balance system composed of a beam (36), held at a point (37) directly or by means of an arm (38) to the structure of the nacelle (not shown).
- a balance system composed of a beam (36), held at a point (37) directly or by means of an arm (38) to the structure of the nacelle (not shown).
- One side of the beam (39) is connected to the floating frame (34) and on the other side it has a counterweight (40). The value of this counterweight (40) is determined by the load which it is desired to admit on the nacelle in operation.
- This switch (44 “') is connected to a command from an audible warning device (not shown) which, in the event of a stop, also informs, by switching on, that it is a stop due to an overload.
- FIG. 4 there is also shown a complementary chain control device (14 ') which is not directly driven by the transmission arm (10') but by a complementary system which includes a nut (50 ) additional, a complementary chain (51) relaying the movement of this nut (50) to the other three nuts (13a, 12, 13b) so as to avoid slack in the chain (14 ').
- a complementary chain control device 14 '
- the invention is not limited to the embodiments described and shown and it would of course be possible to provide different variants, in particular as regards the balance device, for example provide that one of the beams acts directly on a switch, provide that the weight can be moved on a beam fitted with a scale determining different permissible loads.
- the frame placed under the nacelle could be of another shape, mounted differently under the nacelle and act directly on a switch.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Types And Forms Of Lifts (AREA)
Description
La présente invention est relative à un engin de levage en particulier une nacelle généralement rectangulaire, motorisée, suspendue et appelée à se déplacer de bas en haut et inversement le long d'une façade d'un bâtiment ou autre édifice.The present invention relates to a lifting machine in particular a generally rectangular, motorized, suspended nacelle which is called upon to move from bottom to top and vice versa along a facade of a building or other edifice.
On connaît déjà ce type d'engin qui généralement se déplace, comme décrit notamment dans le brevet US n° 3 237 718, à l'aide de deux moteurs électriques fonctionnant chacun par rapport à un câble accroché au haut de la façade du bâtiment et coopérant avec un treuil tel que décrit dans ce brevet US et dans le brevet européen n° 0 009 058.We already know this type of machine which generally moves, as described in particular in US Patent No. 3,237,718, using two electric motors each operating with respect to a cable hung at the top of the facade of the building and cooperating with a winch as described in this US patent and in European patent No. 0 009 058.
L'engin de levage ou nacelle selon la présente invention est sensiblement simplifié par rapport aux engins existants et plus sûr que ces derniers, car, d'une part, il n'est en effet pourvu que d'un seul moteur, électrique ou à combustible comme essence, mazout, et, d'autre part, il se déplace le long de chaînes, fixées par une de leurs extrémités au sommet de la façade susdite, ce qui permet d'éliminer les treuils qui sont les éléments les moins fiables dudit type d'engin.The lifting device or nacelle according to the present invention is significantly simplified compared to existing devices and safer than the latter, because, on the one hand, it is in fact provided with only one motor, electric or fuel like gasoline, fuel oil, and, on the other hand, it moves along chains, fixed by one of their ends to the top of the aforesaid facade, which makes it possible to eliminate the winches which are the least reliable elements of said type of gear.
En effet, cet engin de levage en particulier une nacelle se caractérise en ce que d'une part, en son centre longitudinal sont alignés, un moteur pouvant s'accoupler par un premier arbre de transmission à un coupleur-inverseur généralement hydraulique, par exemple commandé par un vérin pneumatique permettant d'inverser le sens de la nacelle par rapport au moteur qui lui tourne toujours dans le même sens, ce coupleur est accouplé par un deuxième arbre de transmission à un réducteur, éventuellement démultiplicateur, destiné à renvoyer à angle droit le mouvement moteur, et deuxième arbre de transmission portant interposé, entre le coupleur et le réducteur, un volant solidaire de cedit arbre qui peut être ralenti et bloqué par un dispositif de freinage à mâchoire, prenant sur le volant, dont l'ouverture n'est obtenue que par la pression sur un moyen de commande, et réducteur, renvoi d'angle, qui, d'autre part, entraine, perpendiculairement à l'alignement transversal, de part et d'autre, un troisième arbre de transmission aux extrémités duquel est placée une noix de levage sur laquelle prend une chaîne.Indeed, this lifting machine in particular a nacelle is characterized in that on the one hand, in its longitudinal center are aligned, a motor which can be coupled by a first transmission shaft to a generally hydraulic reversing coupler, for example controlled by a pneumatic cylinder making it possible to reverse the direction of the nacelle relative to the motor which always turns it in the same direction, this coupler is coupled by a second transmission shaft to a reduction gear, possibly reduction gear, intended to return at right angles the motor movement, and second transmission shaft carrying interposed, between the coupler and the reduction gear, a flywheel integral with said shaft which can be slowed down and blocked by a jaw braking device, taking on the flywheel, the opening of which does not is obtained only by pressing on a control means, and reducing, angle gear, which, on the other hand, causes, perpendicular to the transverse alignment, on both sides, a third drive shaft at the ends of which is placed a lifting nut on which a chain takes.
Dans une forme de réalisation préférentielle, on peut prévoir d'utiliser un moteur à double sens de rotation ce qui peut être le cas pour un moteur électrique monophasé et ce qui va rendre inutile le coupleur-inverseur, cette dernière fonction étant assurée par le moteur. Généralement ce type de moteur comporte un frein magnétique qui va fonctionner en cas de coupure de courant.In a preferred embodiment, provision may be made for using a motor with a double direction of rotation, which may be the case for a single-phase electric motor and which will make the reversing coupler useless, this latter function being provided by the motor. . Generally this type of motor has a magnetic brake which will operate in the event of a power failure.
Si l'on vise plus particulièrement l'utilisation de chaînes à maillons, il doit toutefois être entendu qu'il est possible d'utiliser également des chaînes à rouleaux, chaînes comportant des plaquettes et des axes ainsi que des chaînes du type Galle ou chaînes à vélo ou encore des chaînes marines. Il est toujours possible aussi, pour répondre à des réglementations très strictes de sécurité, de doubler de chaque côté de la nacelle, le système de suspension de la nacelle.If the aim is more particularly to use link chains, it should however be understood that it is also possible to use roller chains, chains comprising plates and pins as well as chains of the Galle type or chains. by bike or even marine chains. It is always also possible, to meet very strict safety regulations, to double on each side of the nacelle, the suspension system of the nacelle.
En outre dans une forme de réalisation particulière selon laquelle on désire que la nacelle soit immobilisée lorsqu'elle est surchargée et cela au-delà d'un poids déterminé, on a prévu de placer l'ensemble, du moteur, de l'éventuel coupleur-inverseur, du réducteur, ainsi que du volant, sur lequel prend le dispositif de freinage, sur un châssis flottant tenu d'un côté par deux paliers à l'arbre de transmission principal, le châssis flottant comportant un système de balance à contrepoids, d'une valeur déterminée par la charge maximum que l'on souhaite admettre sur la nacelle et qui maintient normalement le châssis flottant plus ou moins parallèlement au plancher de la nacelle.In addition, in a particular embodiment according to which it is desired that the nacelle be immobilized when it is overloaded and this beyond a determined weight, provision has been made to place the assembly, of the motor, of the possible coupler -inverter, reducer, as well as the flywheel, on which takes the braking device, on a floating chassis held on one side by two bearings to the main drive shaft, the floating chassis comprising a counterweight balance system, of a value determined by the maximum load that one wishes to admit on the nacelle and which normally keeps the floating chassis more or less parallel to the floor of the nacelle.
Dès lors qu'il y a surcharge, le moteur s'affaisse, le châssis flottant s'incline et le contrepoids du système de balance monte et vient directement ou par l'intermédiaire d'un élément reposant sur le fléau de la balance du côté du contrepoids, couper le fonctionnement du moteur et de ce fait, provoquer l'arrêt de la nacelle. En outre, on prévoit également que cette coupure entraîne la mise en marche d'un signal, tel qu'avertisseur sonore, informant que l'arrêt de la nacelle est dû à une surcharge.As soon as there is an overload, the motor collapses, the floating chassis tilts and the counterweight of the balance system goes up and comes directly or via an element resting on the balance beam on the side counterweight, cut engine operation and therefore cause the platform to stop. In addition, provision is also made for this cut-off to trigger a signal, such as an audible warning, informing that the stop of the nacelle is due to an overload.
De préférence, en particulier pour des nacelles destinées à se déplacer le long des façades d'immeubles, on prévoit en-dessous de celles-ci, généralement sur toute leur longueur, un cadre ou un bras flottant librement à quelques centimètres sous la nacelle et qui, lorsqu'il rencontre un obstacle, par exemple une fenêtre ouverte, dépassant de la façade du bâtiment, sur le parcours descendant de la nacelle, se rapproche de la nacelle, et entraîne, par l'intermédiaire d'un déclencheur, l'arrêt de la nacelle, en arrêtant le moteur, ce qui entraîne le déclenchement du système de freinage.Preferably, in particular for nacelles intended to move along the facades of buildings, there is provided below these, generally over their entire length, a frame or an arm floating freely a few centimeters below the nacelle and which, when it encounters an obstacle, for example an open window, protruding from the facade of the building, on the descending path of the nacelle, approaches the nacelle, and causes, by means of a trigger, the stop the nacelle, by stopping the engine, which triggers the braking system.
Si le moteur est à sens unique de rotation il va servir tant à entraîner la montée que la descente de la nacelle; le dispositif de freinage à mâchoire est sollicité par un ressort qui tend à refermer la mâchoire à moins que l'on comprime le ressort, ce que l'on prévoit de pouvoir faire au moyen par exemple d'un vérin pneumatique, de façon à bloquer l'ensemble en cas de panne, par un système d'échappement à l'air comprimé.If the motor is one-way of rotation, it will serve both to drive the ascent and descent of the nacelle; the jaw braking device is biased by a spring which tends to close the jaw unless the spring is compressed, which it is intended to be able to do, for example by means of a pneumatic cylinder, so as to block all in the event of a breakdown, by a compressed air exhaust system.
Le volant peut comporter un deuxième dispositif de freinage de secours, éventuellement également à mâchoire, qui intervient dès que le volant est entraîné à une vitesse plus grande qu'une vitesse voulue, le volant comportant de préférence une pièce qui selon le principe de la masselotte, va se dégager du cercle formé par le volant et libérer le deuxième dispositif de freinage.The steering wheel may comprise a second emergency braking device, possibly also with a jaw, which intervenes as soon as the steering wheel is driven at a speed greater than a desired speed, the steering wheel preferably comprising a part which according to the principle of the counterweight , will disengage from the circle formed by the steering wheel and release the second braking device.
La noix de levage, qui termine le troisième bras de transmission et noix sur laquelle prend la chaîne, peut être placée dans un logement ou boîte tel que la chaîne ne peut se déboîter de la noix dentée par un quelconque mou à la chaîne; par ailleurs, si cette noix n'est pas centrée sur le côté latéral transversal de la nacelle, on prévoit une ou deux noix directionnelles, dentées ou non, superposées et placées dans l'alignement central transversal de la nacelle, l'une étant plus haute et l'autre plus basse que la noix d'entraînement; ces deux noix peuvent également être prévues dans le même logement ou boîte que la noix de levage, et éventuellement entraînées par rapport à l'axe de transmission par un système à chaîne et pignons.The lifting nut, which ends the third transmission arm and nut on which the chain takes, can be placed in a housing or box such that the chain cannot disengage from the toothed nut by any slack in the chain; moreover, if this nut is not centered on the transverse lateral side of the nacelle, one or two directional nuts are provided, toothed or not, superimposed and placed in the transverse central alignment of the nacelle, one being higher and the other lower than the driving nut ; these two nuts can also be provided in the same housing or box as the lifting nut, and possibly driven relative to the transmission axis by a chain and sprockets system.
Afin de mieux comprendre l'invention, on la décrit maintenant de manière exemplative et non limitative par rapport à des dessins qui représentent:
- à la figure 1, une vue schématique d'une nacelle conforme à l'invention;
- à la figure 2, une vue de haut schématique montrant le dispositif d'arrêt pour surcharge d'une nacelle;
- à la figure 3, une vue schématique de côté de ce même dispositif d'arrêt pour surcharge d'une nacelle;
- à la figure 4, une vue explosée et agrandie du logement de la chaîne;
- aux figures 5 et 6, deux vues agrandies du dispositif de freinage;
- à la figure 7, une vue schématique du dispositif de freinage;
- à la figure 8, une vue schématique du dispositif prévu sous la nacelle pour l'arrêter si elle rencontre un obstacle.
- in Figure 1, a schematic view of a nacelle according to the invention;
- in Figure 2, a schematic top view showing the stop device for overloading a nacelle;
- in Figure 3, a schematic side view of the same stop device for overloading a nacelle;
- in Figure 4, an exploded and enlarged view of the chain housing;
- in Figures 5 and 6, two enlarged views of the braking device;
- in Figure 7, a schematic view of the braking device;
- in Figure 8, a schematic view of the device provided under the nacelle to stop it if it encounters an obstacle.
En se référant à ces différentes figures, on a représenté par (1) la nacelle à nu, c'est-à-dire sans plancher, par (2) un moteur, par (3) - voir figure 3 - un premier arbre de transmission, par (4) un coupleur-inverseur hydraulique, par (5) un deuxième arbre de transmission, par (6) une boîte comportant un réducteur, renvoi d'angle (non représenté), par (7) un volant sur lequel peut venir prendre un dispositif de freinage (8) à mâchoire (9, 9'), par (10, 10') un troisième arbre de transmission, par (11, 11') les deux logements ou boîtes dans lesquels se placent les noix de levage (12), ainsi que les deux noix directionnelles (13a, 13b) par lesquelles passent les chaînes (14, 14') avant et après que les maillons des chaînes ont pris sur les dents des noix dentées (12) respectives, par (15) un compresseur vérin pneumatique (figure 5) qui va permettre l'ouverture du dispositif de freinage en comprimant le ressort (16) qui maintient normalement les mâchoires (9, 9') du dispositif (8) contre le volant (7), par un tableau de commande (17) à deux boutons-poussoirs (18, 18') revenant automatiquement en position de départ et respectivement lorsqu'ils sont poussés, ouvrent les mâchoires (9, 9') et permettent ainsi au moteur d'entraîner l'arbre de transmission (3) à une certaine vitesse de rotation, et l'un (18), par exemple pour la montée de la nacelle (1) et l'autre (18'), par exemple pour la descente de la nacelle (1).Referring to these different figures, there is shown by (1) the nacelle bare, that is to say without floor, by (2) a motor, by (3) - see Figure 3 - a first shaft transmission, by (4) a hydraulic reversing coupler, by (5) a second transmission shaft, by (6) a gearbox comprising a reduction gear, angle gear (not shown), by (7) a flywheel on which can come and take a brake device (8) with jaw (9, 9 '), by (10, 10') a third drive shaft, by (11, 11 ') the two housings or boxes in which the nuts are placed lifting (12), as well as the two directional nuts (13a, 13b) through which the chains (14, 14 ') pass before and after the chain links have taken on the teeth of the respective toothed nuts (12), by ( 15) a pneumatic cylinder compressor (Figure 5) which will allow the opening of the braking device by compressing the spring (16) which normally holds the jaws (9, 9 ') of the device (8) contr e the steering wheel (7), by a control panel (17) with two push buttons (18, 18 ') automatically returning to the starting position and respectively when pushed, open the jaws (9, 9') and thus allow the motor to drive the driveshaft (3) at a certain speed of rotation, and one (18), for example for raising the nacelle (1) and the other (18 '), for example for the descent of the nacelle (1).
Le tableau de commande (17) à boutons-poussoirs (18, 18') est relié, d'une part, par un conduit (19) au compresseur (15) et, d'autre part, par un autre conduit (20), au coupleur-inverseur (4), un conduit commun (21) reliant les deux conduits (19 et 20) au tableau (17). Par ailleurs, le compresseur (15) est encore relié, par un double conduit (22, 22a, 22b) à des soupapes (23, 24) placées au-dessus et en dessous de la nacelle sur le passage de la chaîne (14). Ces soupapes (23, 24) et éventuellement, de l'autre côté, des conduits (22', 22'a, 22'b) coopérant avec des soupapes (23', 24') placées sur le passage de la chaîne (14') seront ouvertes par un cliquetsupérieur (25) (éventuellement (25') de l'autre côté) et un cliquet inférieur (26) (éventuellement (26') de l'autre côté), ces cliquets (25, 26) (et éventuellement (25', 26') sont attachés l'un (25) ou les uns (25, 25') près de l'extrémité supérieure de la ou des chaînes (14, 14') près de leur point d'accrochage et l'autre (26) ou les autres (26, 26') et à l'extrémité inférieure de la ou des chaînes (14, 14') près de l'endroit où les chaînes reposent sur le sol.The control panel (17) with push buttons (18, 18 ') is connected, on the one hand, by a conduit (19) to the compressor (15) and, on the other hand, by another conduit (20) , to the reversing coupler (4), a common conduit (21) connecting the two conduits (19 and 20) to the panel (17). Furthermore, the compressor (15) is also connected, by a double duct (22, 22a, 22b) to valves (23, 24) placed above and below the nacelle on the passage of the chain (14) . These valves (23, 24) and possibly, on the other side, conduits (22 ', 22'a, 22'b) cooperating with valves (23', 24 ') placed on the passage of the chain (14 ') will be opened by an upper pawl (25) (possibly (25') on the other side) and a lower pawl (26) (possibly (26 ') on the other side), these pawls (25, 26) ( and optionally (25 ', 26') are attached one (25) or some (25, 25 ') near the upper end of the chain (s) (14, 14') near their attachment point and the other (26) or the others (26, 26 ') and at the lower end of the chain or chains (14, 14') near the place where the chains rest on the ground.
Ces cliquets (25, 26), et éventuellement (25', 26'), sont destinés à ouvrir les soupapes (23, 24), et éventuellement (23', 24'), ce qui a pour effet d'annuler l'effet du compresseur (15) et libérer le ressort (16) ce qui entraîne la fermeture des mâchoires (9, 9') et l'arrêt de la montée ou la descente de la nacelle (1) lorsqu'elle est en fin de course, en outre de ce fait on va débrayer le coupleur-inverseur (4) hydraulique du mécanisme.These pawls (25, 26), and possibly (25 ', 26'), are intended to open the valves (23, 24), and possibly (23 ', 24'), which has the effect of canceling the effect of the compressor (15) and release the spring (16) which causes the jaws to close (9, 9 ') and stop the ascent or descent of the nacelle (1) when it is at the end of its travel , in addition therefore, the hydraulic coupler-reverser (4) of the mechanism will be disengaged.
En se référant à la figure 4, on voit que les boîtes ou logements (11, 11') sont en deux parties (11a, 11b), parties réunies l'une à l'autre par des vis (27).Referring to Figure 4, we see that the boxes or housings (11, 11 ') are in two parts (11a, 11b), parts joined to each other by screws (27).
En se référant à la figure 7, on a représenté à titre exemplatif un dispositif de freinage de secours (28) qui fonctionne automatiquement et qui va intervenir si pour une raison quelconque lors de la descente de la nacelle (1) (et éventuellement la montée bien que cela soit moins important) la vitesse devait dépasser une vitesse déterminée et voulue et sensiblement supérieure à la vitesse lente à laquelle normalement va être entraînée la nacelle (1) par le moteur (2).Referring to Figure 7, there is shown by way of example an emergency braking device (28) which operates automatically and which will intervene if for any reason during the descent of the nacelle (1) (and possibly the ascent although this is less important) the speed had to exceed a determined and desired speed and appreciably higher than the slow speed at which normally the gondola (1) will be driven by the motor (2).
Ce dispositif de freinage de secours (28) va agir comme le dispositif de freinage (8) sur le volant (7) et est également un frein à mâchoire (29, 30) se refermant sous l'action d'un ressort (non visible à la figure 7) mais frein qui en principe est maintenu ouvert par une cale ou étançon (31). Mais cette cale ou étançon (31) est toutefois éjectable et l'on prévoit à cet effet un déclencheur (32), pièce mobile placée au périmètre du volant (7) qui dès lors que la vitesse de cedit volant dépasse une certaine vitesse a tendance à s'écarter du cercle extérieur du volant (9) et va de ce fait frapper la cale ou étançon (31) et l'éjecte de sorte que les mâchoires (29, 30) du frein viennent freiner, puis bloquer le volant (7) ce qui entraîne l'arrêt de la descente de la nacelle (1).This emergency braking device (28) will act as the braking device (8) on the steering wheel (7) and is also a jaw brake (29, 30) closing under the action of a spring (not visible in Figure 7) but brake which in principle is kept open by a wedge or prop (31). But this wedge or prop (31) is however ejectable and there is provided for this purpose a trigger (32), moving part placed at the perimeter of the steering wheel (7) which when the speed of said flywheel exceeds a certain speed tends to move away from the outer circle of the flywheel (9) and will therefore strike the shim or prop (31) and eject it so that the brake shoes (29, 30) come to brake, then lock the flywheel (7 ) which causes the descent of the nacelle (1) to stop.
Il y a lieu de remarquer qu'il y a en quelque sorte un troisième moyen de freinage en plus des deux déjà indiqués; en effet, le coupleur-inverseur (4) va nécessairement déjà sensiblement réduire la vitesse du système d'entraînement si celle-ci devait atteindre une valeur anormale.It should be noted that there is somehow a third means of braking in addition to the two already indicated; in fact, the reversing coupler (4) will necessarily already significantly reduce the speed of the drive system if it should reach an abnormal value.
Le fonctionnement de la nacelle est fort simple. Après avoir mis en marche le moteur (2); pour la faire monter, on pousse du doigt sur le bouton (18) ce qui libère le volant (7) du frein à mâchoires (8), le compresseur, vérin pneumatique (15) enfonçant le ressort (16) et la commande d'un autre vérin pneumatique (non représenté) du coupleur-inverseur (4) de marche, ce qui permet au moteur (2) d'entraîner en rotation les différents arbres de transmission (3, 5, 10, 10'), ces derniers (10, 10') entraînant la rotation des noix (12, 12') qui vont s'engrener sur les chaînes (14, 14'), ce qui force la montée de la nacelle. A chaque fois que l'on relâche la pression sur le bouton (18), le frein à mâchoires (8) se referme et le coupleur (4) se met au point mort et la nacelle va être freinée puis arrêtée dans sa montée. Pour la faire descendre, on va pousser sur l'autre bouton (18') ce qui libère le volant (7) du frein à mâchoires (8); la commande du coupleur-inverseur (4) de marche sollicitée également par le bouton (18') permet au moteur (2) d'entraîner en rotation (inverse à ce qui est décrit ci-dessus), à une vitesse voulue, les différents arbres de transmission (3, 5, 10, 10'), ces derniers entraînant la rotation des noix de levage (12, 12') qui vont s'engrener sur les chaînes (14, 14'), ce qui entraîne la descente de la nacelle. Plus particulièrement pour la descente de la nacelle, c'est le coupleur-inverseur (4) qui va limiter, en réduisant et freinant, la vitesse de rotation du moteur et de ce fait, la vitesse de la descente (ou de la montée) de la nacelle (1). A chaque fois que l'on relâche la pression sur le bouton (18'), le frein à mâchoires (8) se referme et la descente de la nacelle est freinée, puis arrêtée.The operation of the nacelle is very simple. After starting the engine (2); for the raise, push the button (18) with your finger, which releases the flywheel (7) from the jaw brake (8), the compressor, pneumatic cylinder (15) driving in the spring (16) and the control of another pneumatic cylinder (not shown) of the reversing coupler (4), which allows the motor (2) to rotate the various transmission shafts (3, 5, 10, 10 '), the latter (10, 10 ') causing the nuts (12, 12') to rotate which will mesh with the chains (14, 14 '), which forces the nacelle to rise. Each time you release the pressure on the button (18), the brake shoe (8) closes and the coupler (4) is put in neutral and the nacelle will be braked then stopped in its rise. To bring it down, we will push the other button (18 ') which releases the flywheel (7) from the jaw brake (8); the operation of the reversing coupler (4) also requested by the button (18 ') allows the motor (2) to drive in rotation (opposite to what is described above), at a desired speed, the various transmission shafts (3, 5, 10, 10 '), the latter driving the rotation of the lifting nuts (12, 12') which will mesh on the chains (14, 14 '), which will lower the Platform. More particularly for the descent of the nacelle, it is the reversing coupler (4) which will limit, by reducing and braking, the speed of rotation of the motor and therefore, the speed of the descent (or ascent) of the nacelle (1). Each time that the pressure on the button (18 ') is released, the jaw brake (8) closes and the descent of the nacelle is braked, then stopped.
Si pour une raison imprévisible, la descente de la nacelle (1) devait se faire à une vitesse dépassant les limites admissibles (ou encore la montée bien que cela soit pratiquement pas possible car en montée, le poids et la charge de la nacelle n'interviennent bien entendu pas), cela aura pour conséquence d'entraîner les noix de levage (12, 12'), les arbres de transmission (10, 10', 5, 3) à des vitesses de rotation supérieures à celles admises et également donc le volant (7) qui à partir d'une vitesse de rotation déterminée, va solliciter le déclencheur (32) qui va éjecter la cale ou étançon (31) et de ce fait entraîner la mise en fonctionnement du dispositif de freinage de secours (28).If for an unforeseeable reason, the descent of the nacelle (1) should be done at a speed exceeding the admissible limits (or even the ascent although this is practically not possible because in uphill, the weight and the load of the nacelle of course not intervene), this will cause the lifting nuts (12, 12 '), the drive shafts (10, 10', 5, 3) to rotate at higher speeds than those allowed and also therefore the flywheel (7) which, from a determined speed of rotation, will request the trigger (32) which will eject the shim or prop (31) and therefore cause the emergency braking device (28) to operate ).
Comme déjà indiqué, afin d'éviter que la nacelle (1) ne vienne brutalement s'arrêter lorsqu'elle est en fin de course, tant en montée (extrémité supérieure des chaînes (14, 14') qu'en descente (au sol), les cliquets (25, 26 et 25', 26') vont solliciter juste avant la fin de course les soupapes (23, 24 et 23', 24'), ce qui va entraîner une décompression du compresseur, vérin pneumatique (15), par échappement de l'air et de ce fait la fermeture du dispositif de freinage (8) et l'arrêt de la montée ou la descente de la nacelle (1).As already indicated, in order to prevent the nacelle (1) from suddenly coming to a stop when it is at the end of its travel, both uphill (upper end of the chains (14, 14 ') and downhill (on the ground) ), the pawls (25, 26 and 25 ', 26') will stress the valves (23, 24 and 23 ', 24') just before the end of the stroke, which will cause the compressor, pneumatic cylinder (15) to decompress ), by escaping the air and thereby closing the braking device (8) and stopping the ascent or descent of the nacelle (1).
De plus, par exemple, le coupleur-inverseur hydraulique (4) de la nacelle peut être muni d'un système de dérivation (by-pass) permettant un réglage limitateur par rapport à la charge maximum admise; ce système peut d'ailleurs s'appliquer également à tout autre dispositif de levage où il est également indispensable de prévoir cette adaptation. Par ailleurs, les vérins pneumatiques pour libérer le dispositif de freinage (8) comme pour commander le coupleur-inverseur (4) peuvent être soit à pression, soit à décompression.In addition, for example, the hydraulic reversing coupler (4) of the nacelle can be provided with a bypass system (bypass) allowing a limiting adjustment relative to the maximum permitted load; this system can also apply to any other lifting device where it is also essential to provide this adaptation. Furthermore, the pneumatic cylinders for releasing the braking device (8) as for controlling the reversing coupler (4) can be either pressure or decompression.
En se référant aux différentes figures, on a représenté en outre, par (33, 33') (figure 2) deux paliers par lesquels le châssis flottant (34), portant le moteur (2) et les autres éléments (3, 4, 5, 7, 8, 6), est tenu à la structure de la nacelle (non représentée).Referring to the various figures, there is also shown, by (33, 33 ′) (FIG. 2) two bearings by which the floating chassis (34), carrying the motor (2) and the other elements (3, 4, 5, 7, 8, 6), is held to the structure of the nacelle (not shown).
En se référant plus particulièrement aux figures 2 et 3, on voit que le châssis flottant (34) est susceptible de descendre du côté où il est libre, c'est-à-dire côté opposé aux paliers (33, 33'), selon la flèche (35), est maintenu normalement à l'horizontale par un système de balance composé d'un fléau (36), tenu en un point (37) directement ou par l'intermédiaire d'un bras (38) à la structure de la nacelle (non représentée). Un côté du fléau (39) est relié au châssis flottant (34) et de l'autre côté il comporte un contrepoids (40). La valeur de ce contrepoids (40) est déterminée par la charge que l'on souhaite admettre sur la nacelle en fonctionnement.Referring more particularly to FIGS. 2 and 3, it can be seen that the floating chassis (34) is capable of descending on the side where it is free, that is to say on the side opposite the bearings (33, 33 '), according to the arrow (35), is normally maintained horizontally by a balance system composed of a beam (36), held at a point (37) directly or by means of an arm (38) to the structure of the nacelle (not shown). One side of the beam (39) is connected to the floating frame (34) and on the other side it has a counterweight (40). The value of this counterweight (40) is determined by the load which it is desired to admit on the nacelle in operation.
Lorsque cette charge prévue et déterminée est dépassée, la puissance exigée au moteur (2) va entraîner la descente selon la flèche (35) du châssis flottant (34), ce qui amène par contre la montée selon la flèche (41) du fléau portant le contrepoids (40). Sur le fléau (36) repose un bras (42) muni d'une roulette (43) qui va également se redresser vers l'horizontale entraînant par l'intermédiaire d'un interrupteur (schématiquement représenté par la boîte 44"'), l'arrêt du moteur (2).When this planned and determined load is exceeded, the power required of the motor (2) will cause the descent according to the arrow (35) of the floating chassis (34), which on the other hand brings about the rise according to the arrow (41) of the carrying beam the counterweight (40). On the beam (36) rests an arm (42) provided with a roller (43) which will also straighten towards the horizontal, driving via a switch (diagrammatically represented by the
Cet interrupteur (44"') est relié à une commande d'un avertisseur sonore (non représentée) qui, en cas d'arrêt, informe aussi, par sa mise en marche, qu'il s'agit d'un arrêt dû à une surcharge.This switch (44 "') is connected to a command from an audible warning device (not shown) which, in the event of a stop, also informs, by switching on, that it is a stop due to an overload.
En se référant à la figure 8, on voit le cadre (44, 44', 44") placé sous la structure de la nacelle (1) et tenu en pivotement aux points (45, 45') extérieurs à la nacelle (c'est-à-dire du côté opposé de la nacelle, se déplaçant face au bâtiment); lorsque la nacelle descend, le cadre vient frapper contre tout élément fixe qu'il rencontre (une fenêtre ouverte vers l'extérieur par exemple) et remonte selon la flèche (46) et rencontre un bras (47) portant une roulette (48) qui, lorsque le bras est ramené vers l'horizontale, agit sur un interrupteur, schématiquement représenté par la boîte (49), qui va entraîner l'arrêt du moteur (2) et de ce fait l'arrêt de la nacelle.Referring to Figure 8, we see the frame (44, 44 ', 44 ") placed under the structure of the nacelle (1) and pivotally held at points (45, 45') outside the nacelle (c ' i.e. on the opposite side of the nacelle, moving in front of the building); when the nacelle descends, the frame strikes against any fixed element it encounters (a window open towards the outside for example) and rises according to the arrow (46) and meets an arm (47) carrying a caster (48) which, when the arm is brought back to the horizontal, acts on a switch, schematically represented by the box (49), which will cause the stop motor (2) and thereby stopping the nacelle.
A la figure 4, on a représenté en outre un dispositif complémentaire d'asservissement de la chaîne (14') qui n'est pas directement entraînée par le bras de transmission (10') mais par un système complémentaire qui comporte une noix (50) supplémentaire, une chaîne complémentaire (51) relayant le mouvement de cette noix (50) aux trois autres noix (13a, 12, 13b) de sorte à éviter du mou dans la chaîne (14'). Bien entendu, l'invention n'est pas limitée aux formes de réalisation décrites et représentées et l'on pourrait bien entendu prévoir différentes variantes, notamment en ce qui concerne le dispositif de balance, par exemple prévoir que l'un des fléaux agisse directement sur un interrupteur, prévoir que le poids peut être déplacé sur un fléau muni d'une graduation déterminant différentes charges admissibles.In FIG. 4, there is also shown a complementary chain control device (14 ') which is not directly driven by the transmission arm (10') but by a complementary system which includes a nut (50 ) additional, a complementary chain (51) relaying the movement of this nut (50) to the other three nuts (13a, 12, 13b) so as to avoid slack in the chain (14 '). Of course, the invention is not limited to the embodiments described and shown and it would of course be possible to provide different variants, in particular as regards the balance device, for example provide that one of the beams acts directly on a switch, provide that the weight can be moved on a beam fitted with a scale determining different permissible loads.
De même, le cadre placé sous la nacelle, pourrait être d'une autre forme, monté de manière différente sous la nacelle et agir directement sur un interrupteur.Similarly, the frame placed under the nacelle, could be of another shape, mounted differently under the nacelle and act directly on a switch.
Claims (15)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AT84870025T ATE39467T1 (en) | 1983-02-24 | 1984-02-20 | LIFTING DEVICE, PARTICULARLY WORK PLATFORM. |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
BE896004 | 1983-02-24 | ||
BE896004 | 1983-02-24 | ||
BE0/211502A BE897720R (en) | 1983-09-09 | 1983-09-09 | Bracket hoist mechanism for building engineering - uses bidirectional electric motor meshing with chains to drive bucket up and down building wall |
BE897720 | 1983-09-09 |
Publications (3)
Publication Number | Publication Date |
---|---|
EP0117862A2 EP0117862A2 (en) | 1984-09-05 |
EP0117862A3 EP0117862A3 (en) | 1985-10-09 |
EP0117862B1 true EP0117862B1 (en) | 1988-12-28 |
Family
ID=25660247
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP19840870025 Expired EP0117862B1 (en) | 1983-02-24 | 1984-02-20 | Lifting device, in particular a working-platform |
Country Status (2)
Country | Link |
---|---|
EP (1) | EP0117862B1 (en) |
DE (1) | DE3475772D1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102605941A (en) * | 2012-03-23 | 2012-07-25 | 河北杭萧钢构有限公司 | Enclosing shield hoisting platform |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4869341A (en) * | 1987-09-21 | 1989-09-26 | Fitzgerald Frederick P | Automatic control of work platforms |
KR100251014B1 (en) * | 1997-05-06 | 2000-04-15 | 김경주 | Lifter |
NL1008092C2 (en) * | 1998-01-22 | 1999-07-26 | Ltf Transporttechniek Bv | Goods lift for retail shop |
NL1010908C2 (en) * | 1998-12-28 | 2000-06-30 | Altrex Bv | Lift car guide system. |
US7975807B2 (en) * | 2004-01-20 | 2011-07-12 | Franklin Samuel H | Elevator climbing system |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1615182A (en) * | 1926-09-07 | 1927-01-18 | James L Thorne | Painter's scaffold |
US2649280A (en) * | 1950-05-31 | 1953-08-18 | Steel Products Eng Co | Chain hoist mechanism |
US3237718A (en) * | 1964-05-13 | 1966-03-01 | Ederer Corp | Two-sided suspension system for staging |
DE2339669C3 (en) * | 1973-08-04 | 1980-06-19 | Walter 2000 Hamburg Boczek | Hoist winch for nuclear reactors |
US4177973A (en) * | 1978-03-06 | 1979-12-11 | Ederer Incorporated | Cable drum safety brake |
EP0009058B1 (en) * | 1978-09-25 | 1983-02-16 | Plumettaz Sa | Suspending apparatus for a facade's maintenance platform |
-
1984
- 1984-02-20 DE DE8484870025T patent/DE3475772D1/en not_active Expired
- 1984-02-20 EP EP19840870025 patent/EP0117862B1/en not_active Expired
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102605941A (en) * | 2012-03-23 | 2012-07-25 | 河北杭萧钢构有限公司 | Enclosing shield hoisting platform |
Also Published As
Publication number | Publication date |
---|---|
EP0117862A2 (en) | 1984-09-05 |
EP0117862A3 (en) | 1985-10-09 |
DE3475772D1 (en) | 1989-02-02 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
EP0565605B1 (en) | Self-raising platform | |
EP0627527B1 (en) | Means for supporting street furniture, retractable by electronic means | |
EP0117862B1 (en) | Lifting device, in particular a working-platform | |
EP0015857B1 (en) | Device for the motorized opening and closing of a gate | |
EP1148022A1 (en) | Frame for lifting basket and scissor lifting basket with such a frame | |
EP1351878A1 (en) | Emergency braking and shock absorbing device for a lift or suspended load | |
WO2021170795A1 (en) | Mobile signal light for use on a building site | |
FR2810655A1 (en) | VARIABLE TRACTION MECHANISM FOR A ROTARY CONTROLLER OF OVERSPEED SAFETY DEVICE | |
FR2795060A1 (en) | Lift stop for maintenance in shaft has retractable stop on lift cabin engaging stop on wall of lift shaft to selectively prevent total upward movement of cabin | |
FR2710361A1 (en) | Self-lifting platform | |
EP2150482B1 (en) | Multi-shaft rack and pinion drive system | |
BE896004A (en) | Hoist drive for cage moving over face of building - uses drive motor coupled through gearbox to flywheel which has normally engaged brakes, and to sprockets running in chains spanning face | |
EP1178505A1 (en) | Actuating mechanism with tow chain for electrical high voltage switches | |
BE897720R (en) | Bracket hoist mechanism for building engineering - uses bidirectional electric motor meshing with chains to drive bucket up and down building wall | |
FR2645135A1 (en) | Method and installation for unblocking a lift or goods lift cabin which has accidentally become immobilised between two floors | |
FR2812759A1 (en) | CHAIN MANEUVER MECHANISM PROVIDED WITH A STARTING DEVICE FOR A HIGH-VOLTAGE ELECTRICAL SWITCHING APPARATUS | |
EP1282579A1 (en) | Lift cage governor | |
FR2511995A1 (en) | Safety brake for motorised lifting winch - uses speed sensor to activate electromagnet which locks ratchet wheel friction coupled to winder drum | |
FR2566379A1 (en) | Mobile lifting machine, particularly for ports | |
CH336962A (en) | Installation for controlling jacks ensuring the progressive movement of a part, in particular a sliding formwork | |
EP0385180A2 (en) | Safety brake for a lift or the like | |
FR2970718A1 (en) | Elastic lifting gantry for use in parking to allow passage of fire truck, has elastic unit exerting forces on carriage, and compressing unit to compress elastic unit for moving cross-piece towards downwardly | |
FR3028255A1 (en) | ELECTROMECHANICAL LIFTING DEVICE RELEASABLE FROM A LIFTER FOR PERSONS WITH REDUCED MOBILITY | |
FR2970719A1 (en) | Gantry for passage of firefighter lorry, has movable cross-piece carried by single post and hinge arranged between cross-piece and carriage, where rotation of cross-piece is limited by spring exerting force opposite to cross-piece rotation | |
BE559061A (en) |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PUAI | Public reference made under article 153(3) epc to a published international application that has entered the european phase |
Free format text: ORIGINAL CODE: 0009012 |
|
AK | Designated contracting states |
Designated state(s): AT CH DE FR GB IT LI LU NL SE |
|
PUAL | Search report despatched |
Free format text: ORIGINAL CODE: 0009013 |
|
AK | Designated contracting states |
Designated state(s): AT CH DE FR GB IT LI LU NL SE |
|
17P | Request for examination filed |
Effective date: 19860402 |
|
RAP1 | Party data changed (applicant data changed or rights of an application transferred) |
Owner name: NOVITEC SC |
|
RIN1 | Information on inventor provided before grant (corrected) |
Inventor name: HUSSON, ROGER |
|
17Q | First examination report despatched |
Effective date: 19870209 |
|
GRAA | (expected) grant |
Free format text: ORIGINAL CODE: 0009210 |
|
AK | Designated contracting states |
Kind code of ref document: B1 Designated state(s): AT CH DE FR GB IT LI LU NL SE |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: SE Effective date: 19881228 Ref country code: NL Effective date: 19881228 Ref country code: IT Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT;WARNING: LAPSES OF ITALIAN PATENTS WITH EFFECTIVE DATE BEFORE 2007 MAY HAVE OCCURRED AT ANY TIME BEFORE 2007. THE CORRECT EFFECTIVE DATE MAY BE DIFFERENT FROM THE ONE RECORDED. Effective date: 19881228 Ref country code: GB Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES Effective date: 19881228 Ref country code: AT Effective date: 19881228 |
|
REF | Corresponds to: |
Ref document number: 39467 Country of ref document: AT Date of ref document: 19890115 Kind code of ref document: T |
|
REF | Corresponds to: |
Ref document number: 3475772 Country of ref document: DE Date of ref document: 19890202 |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: LU Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES Effective date: 19890228 Ref country code: LI Effective date: 19890228 Ref country code: CH Effective date: 19890228 |
|
NLV1 | Nl: lapsed or annulled due to failure to fulfill the requirements of art. 29p and 29m of the patents act | ||
GBV | Gb: ep patent (uk) treated as always having been void in accordance with gb section 77(7)/1977 [no translation filed] | ||
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: FR Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES Effective date: 19891027 |
|
REG | Reference to a national code |
Ref country code: CH Ref legal event code: PL |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: DE Effective date: 19891101 |
|
PLBE | No opposition filed within time limit |
Free format text: ORIGINAL CODE: 0009261 |
|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: NO OPPOSITION FILED WITHIN TIME LIMIT |
|
REG | Reference to a national code |
Ref country code: CH Ref legal event code: AUV Free format text: LE BREVET SI-DESSUS EST TOMBE EN DECHEANCE FAUTE DE PAIEMENT, DE LA 6E ANNUITE. |
|
REG | Reference to a national code |
Ref country code: FR Ref legal event code: ST |
|
26N | No opposition filed |