EP1207964B1 - Method and station for changing product in a installation spraying coating product - Google Patents

Method and station for changing product in a installation spraying coating product Download PDF

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Publication number
EP1207964B1
EP1207964B1 EP00958682A EP00958682A EP1207964B1 EP 1207964 B1 EP1207964 B1 EP 1207964B1 EP 00958682 A EP00958682 A EP 00958682A EP 00958682 A EP00958682 A EP 00958682A EP 1207964 B1 EP1207964 B1 EP 1207964B1
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EP
European Patent Office
Prior art keywords
sub
assembly
robot
reservoir
spray gun
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 - Lifetime
Application number
EP00958682A
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German (de)
French (fr)
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EP1207964A1 (en
Inventor
Caryl Thome
Philippe Provenaz
Louis Sentis
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Sames Kremlin SAS
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Sames Technologies SAS
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B12/00Arrangements for controlling delivery; Arrangements for controlling the spray area
    • B05B12/14Arrangements for controlling delivery; Arrangements for controlling the spray area for supplying a selected one of a plurality of liquids or other fluent materials or several in selected proportions to a spray apparatus, e.g. to a single spray outlet
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B5/00Electrostatic spraying apparatus; Spraying apparatus with means for charging the spray electrically; Apparatus for spraying liquids or other fluent materials by other electric means
    • B05B5/16Arrangements for supplying liquids or other fluent material
    • B05B5/1608Arrangements for supplying liquids or other fluent material the liquid or other fluent material being electrically conductive
    • B05B5/1616Arrangements for supplying liquids or other fluent material the liquid or other fluent material being electrically conductive and the arrangement comprising means for insulating a grounded material source from high voltage applied to the material
    • B05B5/1625Arrangements for supplying liquids or other fluent material the liquid or other fluent material being electrically conductive and the arrangement comprising means for insulating a grounded material source from high voltage applied to the material the insulating means comprising an intermediate container alternately connected to the grounded material source for filling, and then disconnected and electrically insulated therefrom
    • B05B5/1633Arrangements for supplying liquids or other fluent material the liquid or other fluent material being electrically conductive and the arrangement comprising means for insulating a grounded material source from high voltage applied to the material the insulating means comprising an intermediate container alternately connected to the grounded material source for filling, and then disconnected and electrically insulated therefrom the arrangement comprising several supply lines arranged in parallel, each comprising such an intermediate container
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B12/00Arrangements for controlling delivery; Arrangements for controlling the spray area
    • B05B12/14Arrangements for controlling delivery; Arrangements for controlling the spray area for supplying a selected one of a plurality of liquids or other fluent materials or several in selected proportions to a spray apparatus, e.g. to a single spray outlet
    • B05B12/1454Arrangements for controlling delivery; Arrangements for controlling the spray area for supplying a selected one of a plurality of liquids or other fluent materials or several in selected proportions to a spray apparatus, e.g. to a single spray outlet separate units comprising both a material container and a spray device permanently connected thereto being removably attached to a part of the spray apparatus, e.g. to a robot arm

Definitions

  • the invention relates to a method and a station of product change in a projection installation of coating product.
  • the invention it is possible to proceed with the cleaning and filling in new coating product of the first tank in masked time. We also proceed, in time masked, cleaning the projector and priming it with the new coating product, so that the only steps of the cleaning / filling process that must be taken into account in the calculation of the duration of the change of product are the steps of separating the first subset and securing the second subset on the arm of the robot.
  • the time that was up to now consumed for cleaning the projector and its priming in new coating product is now available for the projection by means of the second subset since these operations take place in masked time, on the first subset while the second subset is underway use.
  • the process consists in supplying the first subassembly with air, in cleaning product and / or coating material in the appropriate area of the cleaning / filling station, before its separation from the robot.
  • certain functions of the projector and / or tank can be stored included in the separation between this subset and the robot.
  • the subassembly supplies the subassembly with air, electrical current, cleaning product and / or coating material by means of of two mobile units, a first unit being connected to the subassembly before it separates from the robot while a second unit is connected to the subassembly after its separation from the robot, instead of the part of robot connection.
  • it can be provided to feed constantly the projector in air forming a bearing between parts relative movement of the projector, which is particularly advantageous in the case of a rotating projector, because continuous feeding of the bearing avoids any risk of tightening or seizing this bearing.
  • the invention also relates to a change station of product in a product projection installation of coating which makes it possible to implement the process as previously described.
  • This station which includes at least two cleaning / filling areas of a tank, is characterized in that these areas are able to receive each a subset formed of a tank and a projector while this subset is separated from the robot, means being provided for cleaning and / or filling the tank and projector in each of these areas.
  • each subset can occur in masked time, while a subset analog is in use on the robot.
  • the means of cleaning / filling the tank and the projector include two mobile units suitable for connection independently into two connection areas of the subassembly, a first unit being able to be connected to the subassembly mounted on the robot while the second unit is able to be connected to the subset instead of the part connection of the robot.
  • the first unit advantageously comprises connecting means between an air source tablet and a bearing formed in the projector, between two parts in relative motion. So, the landing can be permanently fed, which avoids the risks of seizing or clamping of this bearing.
  • the second unit may comprise a jack whose stem is able to manipulate a piston of the reservoir, especially for purging this tank.
  • the station comprises means of locking a subset in each of the cleaning / filling areas by rotating a ring surrounding this subset, and able to cooperate with reliefs of this subset to move it in rotation by compared to the robot.
  • This ring is advantageously ordered moving, between a locking position and a unlocking position of the subassembly, by a cylinder.
  • a robot or robot 1 is disposed near a conveyor 2 carrying objects to be coated, in this case bodies 3 motor vehicles.
  • the robot 1 is of the multi-axis type and comprises a mobile frame 4 on a guide 5 extending parallel to the conveying direction X-X '.
  • An arm 6 is supported by the chassis 4 and comprises a plurality of segments 6 a, 6 b and 6 c articulated relative to each other.
  • the frame 4 is also made up of parts 4 and 4b articulated with respect to one another about a substantially vertical Z axis.
  • the segment 6c of the arm 6 supports a subset 7 wherein there are provided a reservoir 8 of coating material and a projector 9.
  • the projector 9 is electrostatic and rotary type and carries a bowl 9 has to be driven to high speed by an air turbine provided in the projector 9.
  • the subset 7 When a body of a motor vehicle 3 is in place at the level of the robot 1, the subset 7 is moved in look of the bodywork and the projector 9 is activated so to coat this body with the product contained in the tank 8.
  • the amount of product in the tank 8 is adapted to the surface to be coated with the bodywork 3.
  • this station 10 is provided with two zones 11 and 12 for receiving subsets of the type of the subassembly 7. More specifically, the zone 11 is empty and ready to receive the sub-assembly. 7 together, while the zone 12 contains a similar subset 7 'which comprises a reservoir 8' and a projector 9 'similar to those of the subset 7.
  • the subsets 7 and 7' can be alternately mounted on the segment 6 c of arm 6, as can be seen from the explanations that follow.
  • the arm 6 is in an approach phase in which it brings the subassembly 7 over the zone 11 of the station 10. From the position represented in FIG. In FIG. 2, the arm 6 prints to the subassembly 7 a downward vertical movement represented by the arrow F 1 , which makes it possible to bring the subassembly 7 into the zone 11 as represented in FIG.
  • An actuator 13 enables control of a rod 14 secured to two rods 15 and 16 they themselves secured to crowns 17 and 18 respectively disposed around the outlets 11a and 12 are areas 11 and 12.
  • the areas 11 and 12 are formed by receptacles 11 b and 12 b, inner shape adapted to the outer shape of the sub-assembly 7 and 7 ', and which are connected by exhaust ducts 11 c and 12 c to an unillustrated purge.
  • the subassembly 7 is mounted on the segment 6c of the arm 6 through a ring 7 is capable of rotational movement around the axis X 1 of sub-assembly 7.
  • the jack 13 When the subassembly 7 is in place in the zone 11, the jack 13 is activated so that the rod 14 is moved axially as represented by the arrow F 2 in FIG. 3, which has the effect of causing the rods 15 and 16 and rotating the rings 17 and 18 about the axes X 11 and X 12 of the zones 11 and 12.
  • the rings 17 and 18 are provided on their respective inner faces, reliefs 17 a and 18 a. These reliefs are adapted to cooperate with corresponding reliefs 7 b, 7 'b provided on the rings 7a and 7b has subassemblies 7 and 7'.
  • actuation of the jack 13 allows to rotate the ring 7 has the subassembly 7 in zone 11 about the axis X 1 and it is anticipated that this allows to separate the sub-assembly 7 of the arm 6 robot 1.
  • orifices 7d and 7 d) are provided, as well as electrical connectors 7 e and 7 ' e and, in the central part, an orifice 7 f or 7' f of passage of an operating rod of a piston 8 has the tank 8.
  • a unit 21, radially movable with respect to the X axis 11 is located at a distance of distance d sufficient to avoid interfering with the insertion movement of the subassembly 7 into the receptacle 11b .
  • This unit 21 is then moved by a jack 22 as represented by the arrow F 8 in FIG. 4, so that it is connected to a connection zone 7 g of the subassembly 7, as represented in FIG. .
  • the unit 21 is connected to a coating product change unit 23 by a flexible conduit 24.
  • the unit 21 is also connected by a flexible conduit 25 to a source of compressed air, not shown, and by a driver 26. , to an electronic control unit, also not shown.
  • the unit 21 makes it possible to supply the tank 8 and the projector 9 with coating material, with current and with air.
  • an air bearing formed in the projector 9 can thus be powered before the segment 6c of the arm 6 is disconnected from the subassembly 7, so that this air bearing is permanently sufficiently "rigid" for keep moving parts away and avoid interference between them.
  • a second unit 27, similar to the unit 21, is provided next to zone 12.
  • the structure of the station 10 comprises a carriage 30 movable in a direction parallel to a plane containing the axes X 11 and X 12 .
  • the carriage 30 is supported by rails 31 and 32 which are generally horizontal and carries a jack 33 capable of moving vertically, that is to say perpendicularly to the direction of travel of the carriage 30, a plate 34 which itself supports a set of connection 35 comprising orifices 35 d and 35 e connectors provided to cooperate with the orifices 7 d , 7 d 'and connectors 7 e and 7 e ' subsets 7 and 7 '.
  • the elements 35 d and 35 e are arranged in the same configuration as the corresponding elements in the segment 6c of the arm 6.
  • the plate 35 also carries an own actuator 36 to actuate a rod 37 adapted to penetrate in orifices 7 f or 7 ' f of one of the subsets 7 and 7'.
  • the orifices 35d and the 35 th connectors which are connected, by a bundle 38 of pipes and flexible cables received in a unwinder 39, not shown power supply assemblies, to control the subset 7 in place of the robot 1.
  • the rod 37 is capable of penetrating into the sub-assembly 7 as shown in Figure 11 so as to push the piston 8 to the reservoir 8 in order to purge the tank.
  • the cleaning operations of the tank 8 and the projector 9 can take place according to a pre-established sequence especially through unit 21, controlling the parameters operating the tank 8 and the projector 9 that can be performed through the connection assembly 35, like when the subset 7 is mounted on the robot 1.
  • the rotation speed of a projector turbine 9 can be controlled by means of a tachometer.
  • the filling of the tank 8 takes place by the unit 21 because it is located closer to the lower part of the tank 8 in the position of FIG. 11, which means that the internal ducts of the connection zone 7g are short.
  • the unit 21 also allows the projector 9 to be cleaned, circulating a rinsing product therein, and then priming it with the new coating product, circulating a small amount of the new coating product therein. coating which is then poured into the bottom of the receptacle 11b and discharged through the conduit 11c .
  • connection assembly 35 is disengaged from the subset 7, the plate 34 is raised as shown by the arrow F 11 and the carriage 30 is returned to a central position between zones 11 and 12 as represented by the arrow F 12 , while the arm 6 of the robot 1 brings the subset 7 'to the receiving zone 12 as shown with the arrow F 13 .
  • the time available for cleaning and filling the tank 8 and the projector 9 included in subset 7 is less than or equal to time of use of the sub-assembly 7 ', ie approximately 1 min in the case of a product projection installation coating on vehicle bodies during scrolling.

Landscapes

  • Engineering & Computer Science (AREA)
  • Robotics (AREA)
  • Spray Control Apparatus (AREA)
  • Application Of Or Painting With Fluid Materials (AREA)
  • Manipulator (AREA)
  • Details Or Accessories Of Spraying Plant Or Apparatus (AREA)
  • Cleaning By Liquid Or Steam (AREA)
  • Organic Low-Molecular-Weight Compounds And Preparation Thereof (AREA)
  • Nozzles (AREA)
  • Paints Or Removers (AREA)

Abstract

A process and station for changing product in an installation for spraying coating product, by bringing a first reservoir towards a suitable area of a cleaning/filling station, separating a sub-assembly composed of the first reservoir and a first spray associated therewith, with respect to the robot, connecting with the robot a second, similar sub-assembly composed of a second reservoir and a second spray, adapted to be used for spraying coating product during cleaning and/or filling of the first reservoir and the first spray, and proceeding with cleaning and/or filling of the first reservoir and the first spray in the area.

Description

L'invention a trait à un procédé et à une station de changement de produit dans une installation de projection de produit de revêtement.The invention relates to a method and a station of product change in a projection installation of coating product.

Il est connu, par exemple de EP-A-0 274 322 d'utiliser un réservoir, monté à l'extrémité d'un bras d'un robot multi-axes, pour alimenter en produit de revêtement un projecteur supporté par ce bras, notamment dans le cas d'une installation de projection d'un produit de revêtement électriquement conducteur au moyen d'un projecteur d'un type électrostatique. Cet état de la technique prévoit d'utiliser un projecteur fixe sur le bras du robot et de le nettoyer et de le remplir en nouveau produit de revêtement en fonction des besoins. Selon une variante, le réservoir est monté de façon amovible sur le projecteur et plusieurs réservoirs sont utilisés en fonction du produit de revêtement choisi. Enfin, selon une seconde variante, deux réservoirs sont utilisés alternativement.It is known, for example from EP-A-0 274 322 to use a tank, mounted at the end of an arm of a multi-axis robot, for supplying a coating product with a projector supported by this arm, especially in the case of an installation projection of an electrically coating product conductor by means of a projector of an electrostatic type. This state of the art plans to use a fixed projector on the robot's arm and clean it up and fill it in new coating product as needed. according to a variant, the tank is removably mounted on the projector and several tanks are used according of the chosen coating product. Finally, according to a second alternatively, two tanks are used alternately.

Dans tous les cas, il est nécessaire de nettoyer et d'amorcer en nouveau produit de revêtement le projecteur qui est monté à demeure sur le bras du robot. Ces opérations de rinçage et d'amorçage du projecteur sont relativement longues alors que l'intervalle de temps alloué au changement de produit de revêtement a tendance à diminuer. En effet, dans le cas d'une chaíne de production de véhicules automobiles, la tendance est à l'augmentation des cadences de production et donc des vitesses d'avance des convoyeurs, le changement de produit de revêtement étant effectué dans un intervalle de temps correspondant à l'espace séparant deux carrosseries de véhicule consécutives, le temps disponible étant d'autant plus réduit que la vitesse de convoyage augmente.In any case, it is necessary to clean and to prime the projector in a new coating product is permanently mounted on the robot arm. These operations flushing and priming the projector are relatively long while the time slot allocated to the change of coating product tends to decrease. Indeed, in the case of a production line of motor vehicles, the trend is towards increasing production rates and therefore forward speeds of the conveyors, the change of coating product being carried out in a range of time corresponding to the space separating two bodies of consecutive vehicle, the available time being all the more reduces the conveying speed increases.

C'est à ces problèmes qu'entend répondre l'invention en proposant un nouveau procédé et une nouvelle station de changement de produit de revêtement qui permettent un changement rapide alors que la qualité du nettoyage effectué demeure optimale.It is these problems that the invention intends to meet in proposing a new process and a new station change of coating product that allow a quick change while the quality of cleaning done remains optimal.

Dans cet esprit, l'invention concerne un procédé de changement de produit dans une installation de produit de revêtement, comprenant au moins un robot, apte à déplacer un premier projecteur et un premier réservoir associé en regard d'objets à revêtir, ce procédé comprenant une étape d'amenée de ce réservoir vers une zone adaptée d'une station de nettoyage/remplissage, caractérisé en ce qu'il consiste à :

  • séparer un sous-ensemble comprenant le premier réservoir et le premier projecteur par rapport au robot ;
  • solidariser avec ce robot un second sous-ensemble analogue comprenant un second réservoir et un second projecteur, ce second sous-ensemble étant apte à être utilisé pour la projection de produit de revêtement pendant le nettoyage et/ou remplissage du premier réservoir et du premier projecteur et
  • procéder au nettoyage et/ou au remplissage du premier réservoir et du premier projecteur dans cette zone.
In this spirit, the invention relates to a method of product change in a coating product installation, comprising at least one robot, able to move a first projector and a first associated reservoir facing objects to be coated, this method comprising a step of feeding this reservoir to a suitable zone of a cleaning / filling station, characterized in that it consists of:
  • separating a subset including the first reservoir and the first projector from the robot;
  • to join with this robot a second similar subassembly comprising a second tank and a second headlamp, this second subassembly being able to be used for the projection of coating product during the cleaning and / or filling of the first tank and the first headlamp and
  • clean and / or fill the first tank and the first spotlight in this area.

Grâce à l'invention, on peut procéder au nettoyage et au remplissage en nouveau produit de revêtement du premier réservoir en temps masqué. On procède également, en temps masqué, au nettoyage du projecteur et à son amorçage avec le nouveau produit de revêtement, de telle sorte que les seules étapes du procédé de nettoyage/remplissage qui doivent être prises en compte dans le calcul de la durée du changement de produit sont les étapes de séparation du premier sous-ensemble et de solidarisation du second sous-ensemble sur le bras du robot. En d'autres termes, le temps qui était jusqu'à présent consommé pour le nettoyage du projecteur et son amorçage en nouveau produit de revêtement est maintenant disponible pour la projection au moyen du second sous-ensemble puisque ces opérations ont lieu en temps masqué, sur le premier sous-ensemble alors que le second sous-ensemble est en cours d'utilisation.Thanks to the invention, it is possible to proceed with the cleaning and filling in new coating product of the first tank in masked time. We also proceed, in time masked, cleaning the projector and priming it with the new coating product, so that the only steps of the cleaning / filling process that must be taken into account in the calculation of the duration of the change of product are the steps of separating the first subset and securing the second subset on the arm of the robot. In other words, the time that was up to now consumed for cleaning the projector and its priming in new coating product is now available for the projection by means of the second subset since these operations take place in masked time, on the first subset while the second subset is underway use.

Selon un premier aspect avantageux de l'invention, le procédé consiste à alimenter le premier sous-ensemble en air, en produit de nettoyage et/ou en produit de revêtement dans la zone adaptée de la station nettoyage/remplissage, avant sa séparation d'avec le robot. Ainsi, certaines fonctions du projecteur et/ou du réservoir peuvent être conservées y compris lors de la séparation entre ce sous-ensemble et le robot.According to a first advantageous aspect of the invention, the process consists in supplying the first subassembly with air, in cleaning product and / or coating material in the appropriate area of the cleaning / filling station, before its separation from the robot. Thus, certain functions of the projector and / or tank can be stored included in the separation between this subset and the robot.

Selon un autre aspect avantageux de l'invention, on alimente le sous-ensemble en air, en courant électrique, en produit de nettoyage et/ou en produit de revêtement au moyen de deux unités mobiles, une première unité étant raccordée au sous-ensemble avant sa séparation d'avec le robot alors qu'une seconde unité est raccordée au sous-ensemble après sa séparation d'avec le robot, à la place de la partie de connexion du robot.According to another advantageous aspect of the invention, supplies the subassembly with air, electrical current, cleaning product and / or coating material by means of of two mobile units, a first unit being connected to the subassembly before it separates from the robot while a second unit is connected to the subassembly after its separation from the robot, instead of the part of robot connection.

En particulier, on peut prévoir d'alimenter en permanence le projecteur en air de formation d'un palier entre des pièces en mouvement relatif du projecteur, ce qui s'avère particulièrement avantageux dans le cas d'un projecteur rotatif, car l'alimentation continue du palier évite tout risque de serrage ou de grippage de ce palier.In particular, it can be provided to feed constantly the projector in air forming a bearing between parts relative movement of the projector, which is particularly advantageous in the case of a rotating projector, because continuous feeding of the bearing avoids any risk of tightening or seizing this bearing.

L'invention concerne également une station de changement de produit dans une installation de projection de produit de revêtement qui permet de mettre en oeuvre le procédé tel que précédemment décrit. Cette station, qui comprend au moins deux zones de nettoyage/remplissage d'un réservoir, est caractérisée en ce que ces zones sont aptes à recevoir chacune un sous-ensemble formé d'un réservoir et d'un projecteur alors que ce sous-ensemble est désolidarisé du robot, des moyens étant prévus pour nettoyer et/ou remplir le réservoir et le projecteur dans chacune de ces zones.The invention also relates to a change station of product in a product projection installation of coating which makes it possible to implement the process as previously described. This station, which includes at least two cleaning / filling areas of a tank, is characterized in that these areas are able to receive each a subset formed of a tank and a projector while this subset is separated from the robot, means being provided for cleaning and / or filling the tank and projector in each of these areas.

Ainsi, le nettoyage et/ou le remplissage de chaque sous-ensemble peut avoir lieu en temps masqué, alors qu'un sous-ensemble analogue est en cours d'utilisation sur le robot.Thus, the cleaning and / or filling of each subset can occur in masked time, while a subset analog is in use on the robot.

Selon un premier aspect avantageux de l'invention, les moyens de nettoyage/remplissage du réservoir et du projecteur comprennent deux unités mobiles aptes à être raccordées indépendamment en deux zones de connexion du sous-ensemble, une première unité étant apte à être raccordée au sous-ensemble monté sur le robot alors que la seconde unité est apte à être raccordée au sous-ensemble à la place de la partie de connexion du robot. La première unité comprend avantageusement des moyens de raccordement entre une source d'air comprimé et un palier formé dans le projecteur, entre deux pièces en mouvement relatif. Ainsi, le palier peut être alimenté de façon permanente, ce qui évite les risques de grippage ou de serrage de ce palier.According to a first advantageous aspect of the invention, the means of cleaning / filling the tank and the projector include two mobile units suitable for connection independently into two connection areas of the subassembly, a first unit being able to be connected to the subassembly mounted on the robot while the second unit is able to be connected to the subset instead of the part connection of the robot. The first unit advantageously comprises connecting means between an air source tablet and a bearing formed in the projector, between two parts in relative motion. So, the landing can be permanently fed, which avoids the risks of seizing or clamping of this bearing.

En particulier, la seconde unité peut comporter un vérin dont la tige est apte à manoeuvrer un piston du réservoir, notamment pour la purge de ce réservoir.In particular, the second unit may comprise a jack whose stem is able to manipulate a piston of the reservoir, especially for purging this tank.

Selon un autre aspect avantageux, la station comprend des moyens de verrouillage d'un sous-ensemble dans chacune des zones de nettoyage/remplissage, par rotation d'une bague entourant ce sous-ensemble, et apte à coopérer avec des reliefs de ce sous-ensemble pour le déplacer en rotation par rapport au robot. Cette bague est avantageusement commandée en déplacement, entre une position de verrouillage et une position de déverrouillage du sous-ensemble, par un vérin.In another advantageous aspect, the station comprises means of locking a subset in each of the cleaning / filling areas by rotating a ring surrounding this subset, and able to cooperate with reliefs of this subset to move it in rotation by compared to the robot. This ring is advantageously ordered moving, between a locking position and a unlocking position of the subassembly, by a cylinder.

L'invention sera mieux comprise et d'autres avantages de celle-ci apparaítront plus clairement à la lumière de la description qui va suivre d'un mode de réalisation d'une station de changement de produit et de son procédé de mise en oeuvre conformes à l'invention, donnée uniquement à titre d'exemple et faite en référence aux dessins annexés dans lesquels :

  • la figure 1 est une représentation schématique de principe d'une installation de projection de produit de revêtement en cours de fonctionnement ;
  • la figure 2 est une vue en perspective avec arrachements partiels de la station de changement de produit de l'installation de la figure 1 lors d'une première étape du procédé de l'invention ;
  • la figure 3 est une vue analogue de la figure 2 lors d'une seconde étape du procédé de l'invention ;
  • la figure 4 est une coupe selon le plan IV à la figure 3 ;
  • la figure 5 est une coupe analogue à la figure 4 lors d'une troisième étape du procédé de l'invention ;
  • la figure 6 est une vue analogue à la figure 2 lors d'une quatrième étape du procédé de l'invention ;
  • la figure 7 est une vue analogue à la figure 2 lors d'une cinquième étape du procédé de l'invention ;
  • la figure 8 est une vue analogue à la figure 2 lors d'une sixième étape du procédé de l'invention ;
  • la figure 9 est une vue analogue à la figure 2 lors d'une septième étape du procédé de l'invention ;
  • la figure 10 est une coupe selon le plan X à la figure 9 et
  • la figure 11 est une vue analogue à la figure 2 lors d'une huitième étape du procédé de l'invention.
The invention will be better understood and other advantages thereof will appear more clearly in the light of the following description of an embodiment of a product change station and its method of implementation comply to the invention, given solely by way of example and with reference to the appended drawings in which:
  • Figure 1 is a schematic representation of a principle of a coating product spray installation during operation;
  • Figure 2 is a perspective view with partial cutaway of the product change station of the installation of Figure 1 in a first step of the method of the invention;
  • Figure 3 is a similar view of Figure 2 in a second step of the method of the invention;
  • Figure 4 is a section along the plane IV in Figure 3;
  • Figure 5 is a section similar to Figure 4 in a third step of the method of the invention;
  • Figure 6 is a view similar to Figure 2 in a fourth step of the method of the invention;
  • Figure 7 is a view similar to Figure 2 in a fifth step of the method of the invention;
  • Figure 8 is a view similar to Figure 2 in a sixth step of the method of the invention;
  • Figure 9 is a view similar to Figure 2 in a seventh step of the method of the invention;
  • FIG. 10 is a section along plane X in FIG.
  • Figure 11 is a view similar to Figure 2 in an eighth step of the method of the invention.

A la figure 1, un automate ou robot 1 est disposé à proximité d'un convoyeur 2 transportant des objets à revêtir, en l'occurrence des carrosseries 3 de véhicules automobiles. Le robot 1 est du type multi-axes et comprend un châssis 4 mobile sur un guide 5 s'étendant parallèlement à la direction de convoyage X-X'. Un bras 6 est supporté par le châssis 4 et comprend plusieurs segments 6a, 6b et 6c articulés les uns par rapport aux autres. Le châssis 4 est également constitué de parties 4a et 4b articulées l'une par rapport à l'autre autour d'un axe Z sensiblement vertical.In Figure 1, a robot or robot 1 is disposed near a conveyor 2 carrying objects to be coated, in this case bodies 3 motor vehicles. The robot 1 is of the multi-axis type and comprises a mobile frame 4 on a guide 5 extending parallel to the conveying direction X-X '. An arm 6 is supported by the chassis 4 and comprises a plurality of segments 6 a, 6 b and 6 c articulated relative to each other. The frame 4 is also made up of parts 4 and 4b articulated with respect to one another about a substantially vertical Z axis.

Le segment 6c du bras 6 supporte un sous-ensemble 7 dans lequel sont prévus un réservoir 8 de produit de revêtement et un projecteur 9. Le projecteur 9 est du type électrostatique et rotatif et il porte un bol 9a destiné à être entraíné à haute vitesse par une turbine à air prévue dans le projecteur 9.The segment 6c of the arm 6 supports a subset 7 wherein there are provided a reservoir 8 of coating material and a projector 9. The projector 9 is electrostatic and rotary type and carries a bowl 9 has to be driven to high speed by an air turbine provided in the projector 9.

Lorsqu'une carrosserie de véhicule automobile 3 est en place au niveau du robot 1, le sous-ensemble 7 est déplacé en regard de la carrosserie et le projecteur 9 est activé afin de revêtir cette carrosserie avec le produit contenu dans le réservoir 8. La quantité de produit présent dans le réservoir 8 est adaptée à la surface à revêtir de la carrosserie 3.When a body of a motor vehicle 3 is in place at the level of the robot 1, the subset 7 is moved in look of the bodywork and the projector 9 is activated so to coat this body with the product contained in the tank 8. The amount of product in the tank 8 is adapted to the surface to be coated with the bodywork 3.

Au terme du revêtement d'une carrosserie, et alors qu'une seconde carrosserie est en cours de progression vers le robot 1, celui-ci est orienté vers une station de nettoyage/remplissage 10 située dans son voisinage, à l'intérieur de la cabine de projection.At the end of the coating of a bodywork, and while second bodywork is progressing towards the robot 1, it is directed to a cleaning / filling station 10 located in its vicinity, inside the projection booth.

Comme il apparaít plus clairement sur la figure 2, cette station 10 est pourvue de deux zones 11 et 12 de réception de sous-ensembles du type du sous-ensemble 7. Plus précisément, la zone 11 est vide et prête à accueillir le sous-ensemble 7, alors que la zone 12 contient un sous-ensemble analogue 7' qui comprend un réservoir 8' et un projecteur 9' analogues à ceux du sous-ensemble 7. Les sous-ensembles 7 et 7' pouvent être alternativement montés sur le segment 6c du bras 6, ainsi qu'il ressort des explications qui suivent.As it appears more clearly in FIG. 2, this station 10 is provided with two zones 11 and 12 for receiving subsets of the type of the subassembly 7. More specifically, the zone 11 is empty and ready to receive the sub-assembly. 7 together, while the zone 12 contains a similar subset 7 'which comprises a reservoir 8' and a projector 9 'similar to those of the subset 7. The subsets 7 and 7' can be alternately mounted on the segment 6 c of arm 6, as can be seen from the explanations that follow.

Dans l'étape du procédé représenté à la figure 2, le bras 6 est dans une phase d'approche dans laquelle il amène le sous-ensemble 7 au-dessus de la zone 11 de la station 10. A partir de la position représentée à la figure 2, le bras 6 imprime au sous-ensemble 7 un mouvement vertical descendant représenté par la flèche F1, ce qui permet d'amener le sous-ensemble 7 dans la zone 11 comme représenté à la figure 3.In the process step shown in FIG. 2, the arm 6 is in an approach phase in which it brings the subassembly 7 over the zone 11 of the station 10. From the position represented in FIG. In FIG. 2, the arm 6 prints to the subassembly 7 a downward vertical movement represented by the arrow F 1 , which makes it possible to bring the subassembly 7 into the zone 11 as represented in FIG.

Un vérin 13 permet de commander une tige 14 solidaire de deux biellettes 15 et 16 elles-même solidaires de couronnes 17 et 18 disposées respectivement autour des débouchés 11a et 12a des zones 11 et 12. En fait, les zones 11 et 12 sont formées par des réceptacles 11b et 12b, de forme intérieure adaptée à la forme externe des sous-ensemble 7 et 7', et qui sont reliés par des conduits d'évacuation 11c et 12c à une purge non représentée.An actuator 13 enables control of a rod 14 secured to two rods 15 and 16 they themselves secured to crowns 17 and 18 respectively disposed around the outlets 11a and 12 are areas 11 and 12. In fact, the areas 11 and 12 are formed by receptacles 11 b and 12 b, inner shape adapted to the outer shape of the sub-assembly 7 and 7 ', and which are connected by exhaust ducts 11 c and 12 c to an unillustrated purge.

Le sous-ensemble 7 est monté sur le segment 6c du bras 6 grâce à une bague 7a susceptible d'un mouvement de rotation autour de l'axe X1 du sous-ensemble 7.The subassembly 7 is mounted on the segment 6c of the arm 6 through a ring 7 is capable of rotational movement around the axis X 1 of sub-assembly 7.

Lorsque le sous-ensemble 7 est en place dans la zone 11, le vérin 13 est activé de telle sorte que la tige 14 est déplacée axialement comme représentée par la flèche F2 à la figure 3, ce qui a pour effet d'entraíner les biellettes 15 et 16 et de faire tourner les couronnes 17 et 18 autour des axes X11 et X12 des zones 11 et 12. Les couronnes 17 et 18 sont pourvues, sur leurs faces internes respectives, de reliefs 17a et 18a. Ces reliefs sont aptes à coopérer avec des reliefs correspondants 7b et 7'b prévus sur les bagues 7a et 7'a des sous-ensembles 7 et 7' . Ainsi, la manoeuvre du vérin 13 permet de faire tourner la bague 7a du sous-ensemble 7 présent dans la zone 11 autour de l'axe X1 et l'on prévoit que ceci permet de désolidariser le sous-ensemble 7 du bras 6 du robot 1. When the subassembly 7 is in place in the zone 11, the jack 13 is activated so that the rod 14 is moved axially as represented by the arrow F 2 in FIG. 3, which has the effect of causing the rods 15 and 16 and rotating the rings 17 and 18 about the axes X 11 and X 12 of the zones 11 and 12. the rings 17 and 18 are provided on their respective inner faces, reliefs 17 a and 18 a. These reliefs are adapted to cooperate with corresponding reliefs 7 b, 7 'b provided on the rings 7a and 7b has subassemblies 7 and 7'. Thus, actuation of the jack 13 allows to rotate the ring 7 has the subassembly 7 in zone 11 about the axis X 1 and it is anticipated that this allows to separate the sub-assembly 7 of the arm 6 robot 1.

On est alors dans la position de la figure 6 où le segment 6c du bras 6 est soulevé comme représenté par la flèche F3, puis déplacé en direction de la zone 12 comme représenté par la flèche F4, puis abaissé en direction du sous-ensemble 7' comme représenté par la flèche F5. Il est alors possible de manoeuvrer à nouveau le vérin 13 pour imprimer à la couronne 18 un mouvement de rotation autour de l'axe X3 comme représenté par la flèche F6 à la figure 7 de telle sorte que la bague 7'a permet de verrouiller le sous-ensemble 7' sur le segment 6c du bras 6, le sous-ensemble 7' pouvant alors être utilisé par le robot 1 pour revêtir une nouvelle carrosserie après avoir quitté la station 10, comme représenté par la flèche F7 à la figure 8.It is then in the position of Figure 6 where the segment 6 c of the arm 6 is raised as shown by the arrow F 3 , then moved towards the zone 12 as shown by the arrow F 4 , and then lowered towards the sub 7 'as represented by the arrow F 5 . It is then possible to maneuver again the jack 13 to print to the ring 18 a rotational movement about the axis X 3 as represented by the arrow F 6 in Figure 7 so that the ring 7 ' a allows to lock the subassembly 7 'on the segment 6c of the arm 6, the subset 7' can then be used by the robot 1 to coat a new body after leaving the station 10, as represented by the arrow F 7 to Figure 8.

Les faces supérieures 7c et 7'c des sous-ensembles 7 et 7' constituent en fait des plans de joint permettant le montage de ces sous-ensembles alternativement sur le bras 6 du robot 1. En particulier, des orifices 7d et 7'd de passage de fluide sont prévus, de même que des connecteurs électriques 7e et 7'e et, en partie centrale, un orifice 7f ou 7'f de passage d'une tige de manoeuvre d'un piston 8a du réservoir 8.The upper faces 7c and 7c of the subassemblies 7 and 7 'are in fact joint planes for mounting these subassemblies alternately on the arm 6 of the robot 1. In particular, orifices 7d and 7 d) are provided, as well as electrical connectors 7 e and 7 ' e and, in the central part, an orifice 7 f or 7' f of passage of an operating rod of a piston 8 has the tank 8.

Comme il ressort de la figure 4, lorsque le sous-ensemble 7 est reçu dans la zone 11, et avant que ne soit manoeuvré le vérin 13, une unité 21, mobile radialement par rapport à l'axe X11, est située à une distance d suffisante pour ne pas interférer avec le mouvement d'introduction du sous-ensemble 7 dans le réceptacle 11b. Cette unité 21 est ensuite déplacée par un vérin 22 comme représenté par la flèche F8 à la figure 4, de telle sorte qu'elle vient se raccorder sur une zone de connexion 7g du sous-ensemble 7, comme représenté à la figure 5.As is apparent from FIG. 4, when the subassembly 7 is received in the zone 11, and before the jack 13 is actuated, a unit 21, radially movable with respect to the X axis 11 , is located at a distance of distance d sufficient to avoid interfering with the insertion movement of the subassembly 7 into the receptacle 11b . This unit 21 is then moved by a jack 22 as represented by the arrow F 8 in FIG. 4, so that it is connected to a connection zone 7 g of the subassembly 7, as represented in FIG. .

L'unité 21 est raccordée à un bloc de changement de produit de revêtement 23 par un conduit souple 24. L'unité 21 est également raccordée, par un conduit souple 25 à une source d'air comprimé non représentée et, par un conducteur 26, à une unité de commande électronique, également non représentée. Ainsi, lorsqu'elle est connectée sur la zone 7g du sous-ensemble 7 comme représenté à la figure 5, l'unité 21 permet d'alimenter le réservoir 8 et le projecteur 9 en produit de revêtement, en courant et en air. En particulier, un palier à air formé dans le projecteur 9 peut ainsi être alimenté avant que le segment 6c du bras 6 ne soit déconnecté du sous-ensemble 7, de telle sorte que ce palier à air est en permanence suffisamment "rigide" pour maintenir écartées les pièces en mouvement et éviter ainsi une interférence entre celles-ci.The unit 21 is connected to a coating product change unit 23 by a flexible conduit 24. The unit 21 is also connected by a flexible conduit 25 to a source of compressed air, not shown, and by a driver 26. , to an electronic control unit, also not shown. Thus, when it is connected to the zone 7 g of the subassembly 7 as shown in FIG. 5, the unit 21 makes it possible to supply the tank 8 and the projector 9 with coating material, with current and with air. In particular, an air bearing formed in the projector 9 can thus be powered before the segment 6c of the arm 6 is disconnected from the subassembly 7, so that this air bearing is permanently sufficiently "rigid" for keep moving parts away and avoid interference between them.

Une seconde unité 27, analogue à l'unité 21, est prévue en regard de la zone 12.A second unit 27, similar to the unit 21, is provided next to zone 12.

Par ailleurs, la structure de la station 10 comprend un chariot 30 mobile selon une direction parallèle à un plan contenant les axes X11 et X12. Le chariot 30 est supporté par des rails 31 et 32 globalement horizontaux et porte un vérin 33 apte à déplacer verticalement, c'est-à-dire perpendiculairement au sens de déplacement du chariot 30, une platine 34 qui supporte elle-même un ensemble de connexion 35 comprenant des orifices 35d et des connecteurs 35e prévus pour coopérer avec les orifices 7d, 7d' et les connecteurs 7e et 7e' des sous-ensembles 7 et 7'. En fait, les éléments 35d et 35e sont disposés selon la même configuration que les éléments correspondants dans le segment 6c du bras 6. La platine 35 porte également un vérin 36 propre à actionner une tige 37 apte à pénétrer dans des orifices 7f ou 7'f d'un des sous-ensemble 7 et 7'.Furthermore, the structure of the station 10 comprises a carriage 30 movable in a direction parallel to a plane containing the axes X 11 and X 12 . The carriage 30 is supported by rails 31 and 32 which are generally horizontal and carries a jack 33 capable of moving vertically, that is to say perpendicularly to the direction of travel of the carriage 30, a plate 34 which itself supports a set of connection 35 comprising orifices 35 d and 35 e connectors provided to cooperate with the orifices 7 d , 7 d 'and connectors 7 e and 7 e ' subsets 7 and 7 '. In fact, the elements 35 d and 35 e are arranged in the same configuration as the corresponding elements in the segment 6c of the arm 6. The plate 35 also carries an own actuator 36 to actuate a rod 37 adapted to penetrate in orifices 7 f or 7 ' f of one of the subsets 7 and 7'.

Ainsi, lorsque le chariot 30 a été déplacé en direction de la zone 11 comme représenté par la flèche F9 à la figure 9 et lorsque la platine 34 a été abaissée comme représentée par la flèche F10 sur cette figure, les orifices 35d et les connecteurs 35e qui sont reliés, par un faisceau 38 de tuyaux et de câbles souples reçus dans un dérouleur 39, à des ensembles d'alimentation non représentés, permettent de commander le sous-ensemble 7 à la place du robot 1. En particulier, la tige 37 est apte à pénétrer dans le sous-ensemble 7 comme représenté à la figure 11 de façon à pousser le piston 8a du réservoir 8 afin de purger le réservoir.Thus, when the carriage 30 has been moved towards the zone 11 as represented by the arrow F 9 in FIG. 9 and when the plate 34 has been lowered as represented by the arrow F 10 in this figure, the orifices 35d and the 35 th connectors which are connected, by a bundle 38 of pipes and flexible cables received in a unwinder 39, not shown power supply assemblies, to control the subset 7 in place of the robot 1. In particular, the rod 37 is capable of penetrating into the sub-assembly 7 as shown in Figure 11 so as to push the piston 8 to the reservoir 8 in order to purge the tank.

Les opérations de nettoyage du réservoir 8 et du projecteur 9 peuvent avoir lieu selon une séquence pré-établie en particulier à travers l'unité 21, le contrôle des paramètres de fonctionnement du réservoir 8 et du projecteur 9 pouvant être effectué à travers l'ensemble de connexion 35, comme lorsque le sous-ensemble 7 est monté sur le robot 1. Par exemple, la vitesse de rotation d'une turbine du projecteur 9 peut être contrôlée au moyen d'un tachymètre.The cleaning operations of the tank 8 and the projector 9 can take place according to a pre-established sequence especially through unit 21, controlling the parameters operating the tank 8 and the projector 9 that can be performed through the connection assembly 35, like when the subset 7 is mounted on the robot 1. By example, the rotation speed of a projector turbine 9 can be controlled by means of a tachometer.

Le remplissage du réservoir 8 a lieu par l'unité 21 car celle-ci est située au plus près de la partie inférieure du réservoir 8 dans la position de la figure 11, ce qui signifie que les conduits internes de la zone de connexion 7g sont courts. L'unité 21 permet également de nettoyer le projecteur 9, en faisant circuler dans celui-ci un produit de rinçage, puis de l'amorcer avec le nouveau produit de revêtement, en faisant circuler dans celui-ci une faible quantité du nouveau produit de revêtement qui est ensuite déversée dans le fond du réceptacle 11b et évacuée par le conduit 11c.The filling of the tank 8 takes place by the unit 21 because it is located closer to the lower part of the tank 8 in the position of FIG. 11, which means that the internal ducts of the connection zone 7g are short. The unit 21 also allows the projector 9 to be cleaned, circulating a rinsing product therein, and then priming it with the new coating product, circulating a small amount of the new coating product therein. coating which is then poured into the bottom of the receptacle 11b and discharged through the conduit 11c .

Lorsque ces opérations sont terminées, et comme représenté à la figure 11, l'ensemble de connexion 35 est désolidarisé du sous-ensemble 7, la platine 34 est soulevée comme représentée par la flèche F11 et le chariot 30 est ramené vers une position médiane entre les zones 11 et 12 comme représentées par la flèche F12, alors que le bras 6 du robot 1 ramène le sous-ensemble 7' vers la zone de réception 12 comme représenté avec la flèche F13.When these operations are completed, and as shown in Figure 11, the connection assembly 35 is disengaged from the subset 7, the plate 34 is raised as shown by the arrow F 11 and the carriage 30 is returned to a central position between zones 11 and 12 as represented by the arrow F 12 , while the arm 6 of the robot 1 brings the subset 7 'to the receiving zone 12 as shown with the arrow F 13 .

Compte tenu de ce qui précède, le temps disponible pour le nettoyage et le remplissage du réservoir 8 et du projecteur 9 compris dans le sous-ensemble 7 est inférieur ou égal au temps d'utilisation du sous-ensemble 7', soit environ 1 min dans le cas d'une installation de projection de produits de revêtement sur des carrosseries de véhicule au cours de défilement.In view of the above, the time available for cleaning and filling the tank 8 and the projector 9 included in subset 7 is less than or equal to time of use of the sub-assembly 7 ', ie approximately 1 min in the case of a product projection installation coating on vehicle bodies during scrolling.

Ce temps est largement supérieur au temps habituellement disponible, de sorte que ces opérations de nettoyage, de remplissage du réservoir et d'amorçage du projecteur peuvent être effectuées avec le plus grand soin, alors que le changement de sous-ensemble tel qu'il est représenté aux figures 6 et 7, est particulièrement rapide, les cadences de production pouvant être augmentées en conséquence.This time is much longer than usual available, so that these cleaning operations, filling the tank and priming the projector can be done with the utmost care, while the change of subset as represented in Figures 6 and 7, is particularly fast, the rates of production can be increased accordingly.

Claims (10)

  1. Method for changing a product in an installation for spraying a coating product comprising at least one robot (1), capable of moving a first spray gun (9) and a first reservoir (8) associated therewith, facing objects to be coated (3), the said method comprising a step in which the said first reservoir is led to an adapted zone (11) of a cleaning/filling station (10), characterized in that it consists of :
    separating a sub-assembly (7) comprising the said first reservoir (8) and the said first spray gun (9) in relation to the said robot;
    securing to the said robot a second similar sub-assembly (7') comprising a second reservoir (8') and a second spray gun (9'), the said second sub-assembly being capable of being used for spraying a coating product during the cleaning and/or filling of the said first reservoir and the said first spray gun, and
    cleaning and/or filling the said first reservoir and the said first spray gun in the said zone (11).
  2. Method according to claim 1, characterised in that it consists of supplying the said first sub-assembly (7) with air, with a cleaning and/or coating product, in the said zone (11) before separating it from the said robot (1).
  3. Method according to either of claims 1 or 2, characterised in that it consists of supplying the said sub-assembly (7) with air, with electric current, and with a cleaning and/or coating product, by means of two movable units (21, 35), a first unit (21) being connected to the said sub-assembly before its separation from the said robot (1) and a second unit being connected to the said sub-assembly after its separation from the said robot, in place of the connecting part (6c) of the said robot.
  4. Method according to one of the preceding claims, characterised in that it consists of permanently supplying the said spray gun (9) with air for forming a bearing between parts moving relative to the spray gun.
  5. Station for changing a product (10) in an installation for spraying a coating product, the said installation comprising at least one robot (1), capable of moving a spray gun (9) and a reservoir (8) associated therewith, facing objects to be coated (3), the said station comprising at least two zones (11, 12) for cleaning-filling the said reservoir (8), characterized in that each of the said zones is capable of receiving a sub-assembly (7, 7') formed of a reservoir (8, 8') and a spray gun (9, 9') while this sub-assembly is detached from the said robot (1), means (21, 27, 35) being provided for cleaning and/or filling the said reservoir and the said spray gun in each of the said zones.
  6. Station according to claim 5, characterised in that the said means comprise two movable units (21, 27, 35) capable of being connected independently in two connection zones of the said sub-assembly (7), a first unit (21, 27) being capable of being connected to the said sub-assembly mounted on the said robot (1) while a second unit (35) is capable of being connected to the said sub-assembly in place of the connecting part (6c) of the said robot.
  7. Station according to claim 6, characterised in that the said first unit (21, 27) includes means for connection between a source of compressed air and a bearing formed in the said spray gun (9) between two parts in relative movement.
  8. Station according to either of claims 6 or 7, characterised in that the said second unit (35) carries a cylinder (36) of which the rod (37) is capable of manoeuvring a piston (8a) of the said reservoir (8) in particular for purging the said reservoir.
  9. Station according to one of claims 5 to 8, characterised in that it includes means for locking a sub-assembly in each of the said zones by rotating a ring (17, 18) surrounding the said sub-assembly (7, 7') and capable of cooperating with raised portions (7b, 7'b) of the said sub-assembly so as to drive the said sub-assembly in rotation (F6) with respect to the said robot.
  10. Station according to claim 9, characterised in that the said ring (17, 18) is controlled in rotation, between a locking position and an unlocking position of the said sub-assembly, by a cylinder (13).
EP00958682A 1999-08-30 2000-08-11 Method and station for changing product in a installation spraying coating product Expired - Lifetime EP1207964B1 (en)

Applications Claiming Priority (3)

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FR9910992 1999-08-30
FR9910992A FR2797788B1 (en) 1999-08-30 1999-08-30 PRODUCT CHANGE METHOD AND STATION IN A COATING PRODUCT SPRAYING SYSTEM
PCT/FR2000/002316 WO2001015814A1 (en) 1999-08-30 2000-08-11 Method and station for changing product in a installation spraying coating product

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EP1207964B1 true EP1207964B1 (en) 2004-11-03

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JP (1) JP4431730B2 (en)
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AT (1) ATE281245T1 (en)
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FR2609252B1 (en) 1987-01-02 1989-04-21 Sames Sa INSTALLATION FOR SPRAYING COATING PRODUCT SUCH AS FOR EXAMPLE PAINT AND IN PARTICULAR INSTALLATION FOR ELECTROSTATIC PROJECTION OF WATER-BASED PAINT
US4792092A (en) * 1987-11-18 1988-12-20 The Devilbiss Company Paint color change system
JPH0195269U (en) * 1987-12-18 1989-06-23
FR2703266B1 (en) * 1993-04-01 1995-06-23 Sames Sa Coating product spraying machine.
JP3299205B2 (en) * 1998-12-18 2002-07-08 エービービー株式会社 Automatic coating method and apparatus

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US9089864B2 (en) 2008-03-20 2015-07-28 Durr Systems, Gmbh Painting robot and associated operating method
US9662672B2 (en) 2008-03-20 2017-05-30 Duerr Systems, Gmbh Painting robot color changer system
WO2013004792A1 (en) * 2011-07-06 2013-01-10 Sames Technologies Cleaning-filling station for means for spraying a coating product
FR2977508A1 (en) * 2011-07-06 2013-01-11 Sames Technologies CLEANING-FILLING STATION FOR COATING PROJECTION MEANS
RU2588204C2 (en) * 2011-07-06 2016-06-27 Саме Текноложи Post cleaning-filling for means of spray coating material

Also Published As

Publication number Publication date
JP4431730B2 (en) 2010-03-17
US20020158149A1 (en) 2002-10-31
KR20020028222A (en) 2002-04-16
TW526096B (en) 2003-04-01
DE60015569D1 (en) 2004-12-09
DE60015569T2 (en) 2005-12-22
PT1207964E (en) 2005-02-28
WO2001015814A1 (en) 2001-03-08
US6702893B2 (en) 2004-03-09
BR0013587B1 (en) 2009-01-13
ES2230153T3 (en) 2005-05-01
US6391392B1 (en) 2002-05-21
CA2382699A1 (en) 2001-03-08
JP2001129450A (en) 2001-05-15
FR2797788B1 (en) 2001-11-23
KR100695867B1 (en) 2007-03-20
AU7012800A (en) 2001-03-26
BR0013587A (en) 2002-05-07
EP1207964A1 (en) 2002-05-29
CN1371308A (en) 2002-09-25
CN1158143C (en) 2004-07-21
FR2797788A1 (en) 2001-03-02
ATE281245T1 (en) 2004-11-15
MXPA02001492A (en) 2002-07-02
US20020124799A1 (en) 2002-09-12

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