EP1063018B1 - Automatic spray gun with a membrane - Google Patents

Automatic spray gun with a membrane Download PDF

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Publication number
EP1063018B1
EP1063018B1 EP00401761A EP00401761A EP1063018B1 EP 1063018 B1 EP1063018 B1 EP 1063018B1 EP 00401761 A EP00401761 A EP 00401761A EP 00401761 A EP00401761 A EP 00401761A EP 1063018 B1 EP1063018 B1 EP 1063018B1
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EP
European Patent Office
Prior art keywords
needle
membrane
product
pulsed
air
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EP00401761A
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German (de)
French (fr)
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EP1063018A1 (en
Inventor
Patrick Ballu
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Exel Industries SA
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Exel Industries SA
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B7/00Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas
    • B05B7/02Spray pistols; Apparatus for discharge
    • B05B7/12Spray pistols; Apparatus for discharge designed to control volume of flow, e.g. with adjustable passages
    • B05B7/1254Spray pistols; Apparatus for discharge designed to control volume of flow, e.g. with adjustable passages the controlling means being fluid actuated
    • B05B7/1263Spray pistols; Apparatus for discharge designed to control volume of flow, e.g. with adjustable passages the controlling means being fluid actuated pneumatically actuated
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B1/00Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means
    • B05B1/02Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means designed to produce a jet, spray, or other discharge of particular shape or nature, e.g. in single drops, or having an outlet of particular shape
    • B05B1/08Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means designed to produce a jet, spray, or other discharge of particular shape or nature, e.g. in single drops, or having an outlet of particular shape of pulsating nature, e.g. delivering liquid in successive separate quantities ; Fluidic oscillators
    • B05B1/083Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means designed to produce a jet, spray, or other discharge of particular shape or nature, e.g. in single drops, or having an outlet of particular shape of pulsating nature, e.g. delivering liquid in successive separate quantities ; Fluidic oscillators the pulsating mechanism comprising movable parts
    • 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
    • B05B12/02Arrangements for controlling delivery; Arrangements for controlling the spray area for controlling time, or sequence, of delivery
    • B05B12/06Arrangements for controlling delivery; Arrangements for controlling the spray area for controlling time, or sequence, of delivery for effecting pulsating flow
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B7/00Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas
    • B05B7/02Spray pistols; Apparatus for discharge
    • B05B7/08Spray pistols; Apparatus for discharge with separate outlet orifices, e.g. to form parallel jets, i.e. the axis of the jets being parallel, to form intersecting jets, i.e. the axis of the jets converging but not necessarily intersecting at a point
    • B05B7/0807Spray pistols; Apparatus for discharge with separate outlet orifices, e.g. to form parallel jets, i.e. the axis of the jets being parallel, to form intersecting jets, i.e. the axis of the jets converging but not necessarily intersecting at a point to form intersecting jets
    • B05B7/0815Spray pistols; Apparatus for discharge with separate outlet orifices, e.g. to form parallel jets, i.e. the axis of the jets being parallel, to form intersecting jets, i.e. the axis of the jets converging but not necessarily intersecting at a point to form intersecting jets with at least one gas jet intersecting a jet constituted by a liquid or a mixture containing a liquid for controlling the shape of the latter

Definitions

  • the invention relates to an automatic membrane gun used for spraying products, in particular spraying abrasive or enamel paints, water-soluble or dissolved in a solvent.
  • Spray guns in which the spray of the product is obtained exclusively hydrostatically, that is to say by applying a pressure on the product and out through a nozzle at the front end of the gun.
  • Spraying can also be achieved pneumatically, but generally a combination of the two is used, which means that the hydrostatic spray is combined with jets of compressed air which, in addition to a jet of central air spraying, serve to adjust the shape and / or dimensions of the jet of sprayed product.
  • the invention relates more particularly to automatic membrane guns in which the membrane is controlled by pulsed air so that the product, which is fed into the gun under constant pressure, comes out of the nozzle by intermittent spraying.
  • the diaphragm is driven in an oscillation movement by pneumatic means for controlling the pulsed filling of the feed of the product comprising a pulsed air supply which communicates with an annular chamber formed in the gun body around the rod of a control piston which, when actuated by the pulsating air, is moved backwards against the action of an elastic return means.
  • the piston thus moves back and forth at the frequency of the pulsed air.
  • the forward end of the piston rod rests against the diaphragm in a central area thereof to impart an oscillating motion thereto.
  • the product to be sprayed is fed under pressure into a product receiving chamber which is immediately in front of the membrane and which towards the rear is delimited by it.
  • This receiving chamber communicates through a central opening with a central product supply channel arranged in the spray head and which opens directly into the nozzle.
  • the central opening is closed by intermittent sealing means constituted by the membrane itself which is then pressed by the end piston rod against the peripheral area around the opening which thus forms a seat.
  • the diameter of the end of the piston rod is substantially larger than the internal diameter of the opening.
  • this seat is thus at one end of the central channel whose opposite end opens into the nozzle, so that when the control means of the pulsed air are no longer actuated, that is to say ie when the spray is stopped, the entire volume of the central channel is a residue of the product whose flow through the nozzle can not be prevented, causing soiling.
  • This diaphragm spray gun further comprises pulsed supply means for spraying air opening near the spray nozzle to improve the spray and to form the jet of the product.
  • the atomizing air is supplied independently of the pulsed output of the product by means of a programmable controller which supplies the spray air into an annular chamber formed in the spray head and which communicates with a first set of orifices. or air nozzles opening close to the exit of the nozzle and with a second set of orifices located in a crown placed at the front end of the gun body. This arrangement allows the orifices of this second set of orifices to direct the spray air jets at a much greater angle to the jet of the product exiting the nozzle.
  • a general problem which affects membrane spray guns as well as the others which operate with a needle valve lies in the fact that some parts are very exposed to wear, especially when the product is an abrasive product such as a paint with enamel. This is primarily the nozzle, but also the membrane in the case of membrane spray guns and the needle in the case of needle spray guns. All these wear parts thus require a regular replacement that must be done more or less often depending on the abrasive nature of the product. It is therefore desirable to extend the life of these wear parts and / or to facilitate their replacement.
  • the object of the invention is to remedy all the drawbacks mentioned above by proposing an automatic membrane spray gun which avoids contamination by the flow of a residue of the product when the gun is stopped, which operates without problem at a high frequency with an immediate and integrity response to the pulsation of the diaphragm, which is provided with a simple supply of spray air and at least some of the wear parts of which are designed to allow increased service life and / or replacement ease.
  • the object of the invention is an automatic membrane gun for spraying a product such as a paint fed with constant pressure into the gun, comprising means for pulsed spraying of the product comprising an oscillation membrane associated with means for intermittently closing the supply of the product to a nozzle, and pneumatic control means of said pulsed product spraying means, characterized in that said sealing means comprise a punch integral with the oscillation membrane and passing therethrough so as to be connected to a pulsation control member comprising a piston rod connected to a piston controlled by pulsed air.
  • the automatic pistol shown in the drawings is a membrane gun of the type in which the product spray is obtained by pulsed spraying of the product fed into the constant pressure gun, in combination with a pulsed supply of atomizing air which in addition to spraying allows to adjust the shape and / or dimensions of the jet of sprayed product.
  • the process of spraying and adjusting the jet of product sprayed by the compressed air jets is well known and, not forming part of the invention, it will not be described in detail.
  • the gun comprises a body 1 which, preferably, is made of light metal.
  • This body is at its front and rear ends extended by a cylindrical protuberance before 2 and respectively a rear protrusion 3, which are threaded externally.
  • the front protuberance carries a spray head 4 and the rear protrusion carries a cap 5 inside which are housed intermittent output control means of the product to be sprayed.
  • the product is supplied under constant pressure by a pipe 6 in a product feed chamber 7 arranged in the front part of the gun and having a generally frustoconical shape with the smaller diameter end opening directly into a central channel 8 of the head 4.
  • the means for obtaining the pulsed spraying of the product comprise a membrane 10 disposed at the end of the larger diameter of the chamber of spray. brought frustoconical 7.
  • the periphery of the membrane 10 is clamped between a front portion 1 'and a rear portion 1 "of the body 1. These two parts 1' and 1" are assembled by screwing and must be separated for the change of the membrane. to wear caused by the product on the front side of the membrane.
  • the membrane is made of a material such as nitrile.
  • the face exposed to this wear is according to the invention coated with a layer of polytetrafluoroethylene (PTFE), which substantially increases the life of the membrane.
  • PTFE polytetrafluoroethylene
  • the membrane 10 is according to the invention mounted oscillating with a needle 11 extending in a central through bore 12 of the second portion 1 "of the body 1 and which is connected to control means reciprocating at this needle
  • the needle 11 passes through the membrane 10 through a central hole (not shown) of the latter and is secured to the latter by clamping means consisting of flanges 13, 14 integral with the needle and disposed on either side of the membrane 10 in order to clamp them together.
  • the front end of the needle can, as shown in figure 1 , abut against a seat 15 immediately behind the nozzle to form together intermittent sealing means of the supply of the pressurized product into the nozzle.
  • the product passes from the product inlet chamber 7 to the nozzle 9 by an annular spacing defined between the inner wall of the central channel 8 and the outer face of the needle.
  • the space behind the membrane 10 in the product inlet chamber is vented through a conduit 16.
  • the needle 11 is guided in a guide sleeve 17 placed inside the central bore 12 and provided with seals 18.
  • the nozzle 9 thus constitutes, with the needle 11 and the membrane 10, pulsed atomization means for the product controlled by pneumatic control means comprising a forced air supply pipe 19 connected to a conduit 20 which opens into an annular chamber 21 formed around a piston rod 22 extending in the central bore 12 to be connected to its piston 23 which is guided in the cap 5.
  • pneumatic control means comprising a forced air supply pipe 19 connected to a conduit 20 which opens into an annular chamber 21 formed around a piston rod 22 extending in the central bore 12 to be connected to its piston 23 which is guided in the cap 5.
  • the pulsed air coming through the pipe 19 is fed into the annular chamber 21 so as to push the piston 23 against the effect of a return spring 24 bearing on one side against the piston and the on the other side against an inner wall of the cap 5. Reciprocating movement of the piston 23 and thus also the needle 11 which drives the diaphragm 10 in a swinging motion.
  • the figure 1 shows the advanced position of the needle between two pulses of the control air admitted into the annular chamber 21 by the air duct 20, this position also corresponding to the position of the needle when the gun is stopped. In the latter case, there is no product leakage through the nozzle 9, since the end of the needle is in abutment against the seat 15 immediately behind the nozzle.
  • the device Between two pulses of control air, the device returns to the position shown in FIG. figure 1 by a displacement of the piston 23 towards the front, under the effect of the action of the return spring 24, to thereby move the needle 11 forward by driving the membrane through the central zone thereof and that up to the needle presses against its seat 15 in order to close the access of the product to the nozzle.
  • spray gun is also provided with pulsed air supply means for spraying air opening near the spray nozzle 9.
  • spray air supply means comprise a compressed air pipe 25 connected to an air duct 26 opening into a generally circular air inlet chamber 27 arranged around the needle 11 in the rear part 1 "of the body 1 of the gun
  • This air inlet chamber 27 is, via another air duct whose opening is indicated in the figures and which extends in the rear and front parts of the body 1, connected to an outer circular chamber 29 arranged in the spray head 4.
  • This outer chamber 29 is in communication with an inner circular chamber 30 and the two chambers are in a manner known per se connected to the atmosphere p ar orifices opening to the front face of the spray head 4.
  • the orifices 31 of the outer chamber 29 are arranged in a ring 32 disposed at the front face of the spray head 4, coaxially with the outlet of the nozzle 9. These orifices 31 form inside the ring 32 air directed slightly outward and converging towards the jet of product.
  • the orifices 33 of the internal chamber 30 form near the outlet of the product of the spray nozzle 9 outwardly directed and diverging air jets to delineate laterally the jet of product.
  • the control means of these means for supplying the atomizing air are for the pulsed supply of the air included in the control means of the pulsed atomization means of the product.
  • the needle 11 also forms a valve allowing the pulsed supply of the spray air.
  • the needle comprises a valve body 34 constituted by a cylindrical portion of larger diameter which at its rear end is connected to the piston rod 22 and which at its front end has a first beveled shoulder 35 intended to cooperate with a second beveled shoulder 36 complementary to the first and formed inside the central channel 8 immediately in front of the inlet chamber 27 of the compressed air. This second shoulder constitutes a seat for the valve body 34.
  • valve composed of the first and second shoulders 35, 36 acts as a closure means preventing the supplying the spray air to the spray head 4.
  • valve body 34 leaves the seat 36 to allow free passage to the spray air to the spray head. This cycle of opening and closing of the valve is repeated for each pulse.
  • a second return spring 37 is disposed inside the cap 5 to control the movement of the needle.
  • This second return spring 37 is supported on one side on the rear end of the needle and on the other side on the cap 5 to bias the front end of the needle against the seat 15 thereof.
  • the membrane which is usually made of nitrile can advantageously be coated with a polytetrafluoroethylene layer, which considerably increases the service life of this part.
  • the end thereof is according to the invention consists of an interchangeable tip which is simply fixed by screwing. To change this tip, simply remove the spray head to access. Moreover, to improve the wear resistance of this tip, it can advantageously be manufactured in a synthetic resin adapted to the product to be sprayed.

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Abstract

A spray gun has a needle fixed to a membrane oscillated by a pulsing device. The needle causes a product to be supplied intermittently to a spray duct. The needle may extend into a central supply channel of a spraying head.

Description

L'invention concerne un pistolet automatique à membrane utilisé pour la pulvérisation de produits, en particulier pulvérisation de peintures abrasives ou émaux, hydrosolubles ou dissous dans un solvant.The invention relates to an automatic membrane gun used for spraying products, in particular spraying abrasive or enamel paints, water-soluble or dissolved in a solvent.

Il existe des pistolets de pulvérisation dans lesquels la pulvérisation du produit est obtenue exclusivement par voie hydrostatique, c'est-à-dire en appliquant une pression sur le produit et le faire sortir par une buse à l'extrémité avant du pistolet. La pulvérisation peut également être obtenue par voie pneumatique, mais généralement, l'on a recours à une combinaison des deux, ce qui veut dire que la pulvérisation par voie hydrostatique est combinée à des jets d'air comprimé qui, outre un jet d'air central de pulvérisation, servent au réglage de la forme et/ou des dimensions du jet de produit pulvérisé.There are spray guns in which the spray of the product is obtained exclusively hydrostatically, that is to say by applying a pressure on the product and out through a nozzle at the front end of the gun. Spraying can also be achieved pneumatically, but generally a combination of the two is used, which means that the hydrostatic spray is combined with jets of compressed air which, in addition to a jet of central air spraying, serve to adjust the shape and / or dimensions of the jet of sprayed product.

Pour régler l'amenée du produit vers la buse et surtout pour couper cette amenée lorsque le pistolet n'est plus actionné, les pistolets automatiques classiques sans membrane utilisent un pointeau qui obture la sortie du produit au travers de la buse. Le retrait du pointeau pour dégager cette sortie est commandé par des moyens de commande pneumatiques qui agissent sur le piston d'un vérin déplaçant le pointeau vers l'arrière. Lorsque les moyens de commande ne sont plus actionnés, un ressort de rappel agit sur le vérin dans le sens opposé pour déplacer le pointeau vers l'avant afin de fermer la sortie.To regulate the supply of the product to the nozzle and especially to cut this supply when the gun is no longer actuated, conventional automatic no-diaphragm guns use a needle that closes the outlet of the product through the nozzle. The removal of the needle to clear this outlet is controlled by pneumatic control means acting on the piston of a cylinder moving the needle rearwardly. When the control means are no longer actuated, a return spring acts on the cylinder in the opposite direction to move the needle forward to close the outlet.

L'invention concerne plus particulièrement les pistolets automatiques à membrane dans lesquels la membrane est commandée par de l'air pulsé de sorte que le produit, qui est alimenté dans le pistolet sous pression constante, sorte de la buse par une pulvérisation intermittente.The invention relates more particularly to automatic membrane guns in which the membrane is controlled by pulsed air so that the product, which is fed into the gun under constant pressure, comes out of the nozzle by intermittent spraying.

Dans un pistolet automatique à membrane connu, la membrane est entraînée dans un mouvement d'oscillation par des moyens pneumatiques de commande de l'obturation pulsée de l'amenée du produit comprenant une alimentation d'air pulsé qui communique avec une chambre annulaire formée dans le corps du pistolet autour de la tige d'un piston de commande qui, lorsqu'il est actionné par l'air pulsé, est déplacé vers l'arrière à l'encontre de l'action d'un moyen élastique de retour. Le piston effectue ainsi un mouvement de va-et-vient à la fréquence de l'air pulsé.In a known automatic diaphragm gun, the diaphragm is driven in an oscillation movement by pneumatic means for controlling the pulsed filling of the feed of the product comprising a pulsed air supply which communicates with an annular chamber formed in the gun body around the rod of a control piston which, when actuated by the pulsating air, is moved backwards against the action of an elastic return means. The piston thus moves back and forth at the frequency of the pulsed air.

L'extrémité avant de la tige de piston repose contre la membrane, dans une zone centrale de celle-ci, afin de lui imprimer un mouvement d'oscillation. Le produit à pulvériser est alimenté sous pression dans une chambre de réception de produit qui se trouve immédiatement devant la membrane et qui vers l'arrière est délimitée par celle-ci. Cette chambre de réception communique par une ouverture centrale avec un canal central d'amenée du produit aménagé dans la tête de pulvérisation et qui débouche directement dans la buse.The forward end of the piston rod rests against the diaphragm in a central area thereof to impart an oscillating motion thereto. The product to be sprayed is fed under pressure into a product receiving chamber which is immediately in front of the membrane and which towards the rear is delimited by it. This receiving chamber communicates through a central opening with a central product supply channel arranged in the spray head and which opens directly into the nozzle.

Lorsque les moyens de commande de l'air pulsé ne sont pas actionnés, et également entre deux pulsations successives, l'ouverture centrale est fermée par des moyens d'obturation intermittente constitués par la membrane elle-même qui alors est plaquée par l'extrémité de la tige de piston contre la zone périphérique autour de l'ouverture qui forme ainsi un siège. Dans ce but, le diamètre de l'extrémité de la tige de piston est sensiblement plus grand que le diamètre interne de l'ouverture.When the means for controlling the pulsed air are not actuated, and also between two successive pulsations, the central opening is closed by intermittent sealing means constituted by the membrane itself which is then pressed by the end piston rod against the peripheral area around the opening which thus forms a seat. For this purpose, the diameter of the end of the piston rod is substantially larger than the internal diameter of the opening.

Cependant, ce siège se trouve ainsi à l'une des extrémités du canal central dont l'extrémité opposée débouche dans la buse, ce qui fait que lorsque les moyens de commande de l'air pulsé ne sont plus actionnés, c'est-à-dire lorsque la pulvérisation est arrêtée, tout le volume du canal central constitue un résidu du produit dont l'écoulement par la buse ne peut pas être empêché, provoquant alors des salissures.However, this seat is thus at one end of the central channel whose opposite end opens into the nozzle, so that when the control means of the pulsed air are no longer actuated, that is to say ie when the spray is stopped, the entire volume of the central channel is a residue of the product whose flow through the nozzle can not be prevented, causing soiling.

Un autre inconvénient de ce pistolet réside dans le fait que l'obstruction et le dégagement de l'ouverture vers le canal central lors de l'oscillation de la membrane manquent de précision et ne permettent pas le bon fonctionnement de ces moyens d'obturation intermittente de l'amenée du produit sous pression constante à des fréquences qui dans ce contexte technique sont considérées comme élevées et qui sont de l'ordre de 4 Hz.Another disadvantage of this gun lies in the fact that the obstruction and the release of the opening to the central channel during the oscillation of the membrane are inaccurate and do not allow the proper functioning of these intermittent sealing means the supply of the product under constant pressure at frequencies which in this technical context are considered high and which are of the order of 4 Hz.

Ce pistolet de pulvérisation à membrane comporte par ailleurs des moyens d'alimentation pulsée en air de pulvérisation débouchant à proximité de la buse de pulvérisation pour améliorer la pulvérisation et pour former le jet du produit. L'air de pulvérisation est alimenté indépendamment de la sortie pulsée du produit à l'aide d'un automate programmable qui alimente l'air de pulvérisation dans une chambre annulaire formée dans la tête de pulvérisation et qui communique avec un premier jeu d'orifices ou ajutages d'air débouchant tout près de la sortie de la buse et avec un deuxième jeu d'orifices situé dans une couronne placée à l'extrémité avant du corps du pistolet. Cet agencement permet aux orifices de ce deuxième jeu d'orifices de diriger les jets d'air de pulvérisation sous un angle beaucoup plus grand vers le jet du produit sortant de la buse.This diaphragm spray gun further comprises pulsed supply means for spraying air opening near the spray nozzle to improve the spray and to form the jet of the product. The atomizing air is supplied independently of the pulsed output of the product by means of a programmable controller which supplies the spray air into an annular chamber formed in the spray head and which communicates with a first set of orifices. or air nozzles opening close to the exit of the nozzle and with a second set of orifices located in a crown placed at the front end of the gun body. This arrangement allows the orifices of this second set of orifices to direct the spray air jets at a much greater angle to the jet of the product exiting the nozzle.

Cependant, cette alimentation indépendante de l'air de pulvérisation nécessite tout un ensemble de circuits annexes et en plus, l'automate qui gère l'alimentation en air de pulvérisation demande des réglages compliqués et coûteux, ce qui constitue encore un inconvénient très important.However, this independent supply of air spray requires a set of ancillary circuits and in addition, the controller that manages the air supply spray requires complicated and expensive settings, which is still a major drawback.

Un problème général qui touche aussi bien les pistolets de pulvérisation à membrane que les autres qui fonctionnent avec un pointeau réside dans le fait que certaines pièces sont très exposées à l'usure, en particulier quand le produit est un produit abrasif telle qu'une peinture comportant de l'émail. Il s'agit en premier lieu de la buse, mais aussi de la membrane dans le cas des pistolets de pulvérisation à membrane et du pointeau dans le cas des pistolets de pulvérisation à pointeau. Toutes ces pièces d'usure nécessitent ainsi un remplacement régulier qui doit se faire plus ou moins souvent en fonction du caractère abrasif du produit. Il est donc souhaitable de pouvoir prolonger la durée de vie de ces pièces d'usure et/ou d'en faciliter le remplacement.A general problem which affects membrane spray guns as well as the others which operate with a needle valve lies in the fact that some parts are very exposed to wear, especially when the product is an abrasive product such as a paint with enamel. This is primarily the nozzle, but also the membrane in the case of membrane spray guns and the needle in the case of needle spray guns. All these wear parts thus require a regular replacement that must be done more or less often depending on the abrasive nature of the product. It is therefore desirable to extend the life of these wear parts and / or to facilitate their replacement.

L'invention a pour but de remédier à tous les inconvénients mentionnés ci-dessus en proposant un pistolet automatique à membrane qui évite les salissures par écoulement d'un résidu du produit lorsque le pistolet est arrêté, qui fonctionne sans problème à une fréquence élevée avec réponse franche et immédiate aux pulsations de la membrane, qui est pourvu d'une alimentation simple de l'air de pulvérisation et dont au moins certaines des pièces d'usure sont conçues de manière à permettre une durée de vie augmentée et/ou un remplacement facilité.The object of the invention is to remedy all the drawbacks mentioned above by proposing an automatic membrane spray gun which avoids contamination by the flow of a residue of the product when the gun is stopped, which operates without problem at a high frequency with an immediate and impeccable response to the pulsation of the diaphragm, which is provided with a simple supply of spray air and at least some of the wear parts of which are designed to allow increased service life and / or replacement ease.

L'objet de l'invention est un pistolet automatique à membrane pour la pulvérisation d'un produit tel qu'une peinture alimentée sous pression constante dans le pistolet, comprenant des moyens de pulvérisation pulsée du produit comportant une membrane d'oscillation associée à des moyens d'obturation intermittente de l'amenée du produit vers une buse, et des moyens de commande pneumatiques desdits moyens de pulvérisation pulsée du produit, caractérisé en ce que lesdits moyens d'obturation comportent un pointeau solidaire de la membrane d'oscillation et traversant celle-ci de manière à être relié à un organe de commande de pulsation comprenant une tige de piston reliée à un piston commandé par de l'air pulsé.The object of the invention is an automatic membrane gun for spraying a product such as a paint fed with constant pressure into the gun, comprising means for pulsed spraying of the product comprising an oscillation membrane associated with means for intermittently closing the supply of the product to a nozzle, and pneumatic control means of said pulsed product spraying means, characterized in that said sealing means comprise a punch integral with the oscillation membrane and passing therethrough so as to be connected to a pulsation control member comprising a piston rod connected to a piston controlled by pulsed air.

Selon d'autres caractéristiques de l'invention :

  • le pointeau est fixé à la membrane par des moyens de serrage disposés de part et d'autre de la membrane;
  • les moyens de serrage sont constitués par des brides solidaires du pointeau et disposées de part et d'autre de la membrane afin de la serrer entre elles;
  • l'extrémité avant du pointeau s'étend dans un canal central aménagé dans une tête de pulvérisation, et le pointeau peut venir en appui contre un siège aménagé dans le canal central immédiatement derrière la buse;
  • dans un pistolet du genre comportant des moyens d'alimentation pulsée en air de pulvérisation débouchant à proximité de la buse de pulvérisation, et des moyens de commande desdits moyens d'alimentation pulsée en air de pulvérisation, lesdits moyens de commande desdits moyens de pulvérisation pulsée du produit comprennent également lesdits moyens de commande desdits moyens en alimentation pulsée de l'air de pulvérisation;
  • l'extrémité du pointeau est constituée d'un embout interchangeable;
  • l'embout du pointeau est en résine de synthèse;
  • du côté en contact avec le produit, la membrane est revêtue d'une couche en polytétrafluoréthylène.
According to other features of the invention:
  • the needle is fixed to the membrane by clamping means arranged on either side of the membrane;
  • the clamping means consist of flanges integral with the needle and arranged on either side of the membrane to clamp them together;
  • the front end of the needle extends in a central channel arranged in a spray head, and the needle can abut against a seat arranged in the central channel immediately behind the nozzle;
  • in a pistol of the kind comprising pulsed supply means for spraying air opening near the spray nozzle, and control means for said pulsed air supply means, said means for controlling said pulsed spraying means the product also comprises said means for controlling said means for pulsed supply of the spray air;
  • the end of the needle is made of an interchangeable tip;
  • the tip of the needle is in synthetic resin;
  • on the side in contact with the product, the membrane is coated with a polytetrafluoroethylene layer.

L'invention sera maintenant décrite plus en détail à l'aide d'un exemple non limitatif d'un mode de réalisation du pistolet selon l'invention en référence aux dessins annexés sur lesquels :

  • La figure 1 est une vue schématique en coupe longitudinale d'un pistolet de pulvérisation à membrane selon l'invention, vu dans sa position d'arrêt correspondant à sa position entre deux pulsations successives des moyens de commande de la pulvérisation pulsée du produit,
  • La figure 2 est une vue schématique en coupe longitudinale du pistolet de la figure 1, lorsqu'il se trouve dans sa position de pulvérisation dans laquelle aussi bien la pulvérisation pulsée du produit que l'alimentation pulsée de l'air de pulvérisation sont actionnées.
The invention will now be described in more detail with the help of a non-limiting example of an embodiment of the gun according to the invention with reference to the appended drawings in which:
  • The figure 1 is a diagrammatic view in longitudinal section of a membrane spray gun according to the invention, seen in its stop position corresponding to its position between two successive pulsations of the control means of the pulsed spraying of the product,
  • The figure 2 is a schematic view in longitudinal section of the gun of the figure 1 , when in its spray position in which as well the pulsed spraying of the product as the pulsating supply of the atomizing air are actuated.

Le pistolet automatique représenté dans les dessins est un pistolet à membrane du type dans lequel la pulvérisation du produit est obtenue par pulvérisation pulsée du produit alimenté dans le pistolet sous pression constante, en combinaison avec une alimentation pulsée en air de pulvérisation qui outre la pulvérisation permet de régler la forme et/ou les dimensions du jet de produit pulvérisé. Le processus de pulvérisation et de réglage du jet de produit pulvérisé par les jets d'air comprimé est bien connu et, ne faisant pas partie de l'invention, il ne sera donc pas décrit en détail.The automatic pistol shown in the drawings is a membrane gun of the type in which the product spray is obtained by pulsed spraying of the product fed into the constant pressure gun, in combination with a pulsed supply of atomizing air which in addition to spraying allows to adjust the shape and / or dimensions of the jet of sprayed product. The process of spraying and adjusting the jet of product sprayed by the compressed air jets is well known and, not forming part of the invention, it will not be described in detail.

Le pistolet comporte un corps 1 qui, de préférence, est en métal léger. Ce corps est à ses extrémités avant et arrière prolongé par une protubérance cylindrique avant 2 et respectivement une protubérance arrière 3, qui sont filetées extérieurement. La protubérance avant porte une tête de pulvérisation 4 et la protubérance arrière porte un capuchon 5 à l'intérieur duquel sont logés des moyens de commande de sortie intermittente du produit à pulvériser.The gun comprises a body 1 which, preferably, is made of light metal. This body is at its front and rear ends extended by a cylindrical protuberance before 2 and respectively a rear protrusion 3, which are threaded externally. The front protuberance carries a spray head 4 and the rear protrusion carries a cap 5 inside which are housed intermittent output control means of the product to be sprayed.

Le produit est alimenté sous pression constante par un tuyau 6 dans une chambre d'amenée de produit 7 aménagée dans la partie avant du pistolet et ayant une forme globalement tronconique avec l'extrémité à moindre diamètre débouchant directement dans un canal central 8 de la tête de pulvérisation 4 qui relie la chambre d'amenée de produit 7 à une buse de pulvérisation 9. Les moyens permettant l'obtention de la pulvérisation pulsée du produit comportent une membrane 10 disposée à l'extrémité de plus grand diamètre de la chambre d'amenée tronconique 7.The product is supplied under constant pressure by a pipe 6 in a product feed chamber 7 arranged in the front part of the gun and having a generally frustoconical shape with the smaller diameter end opening directly into a central channel 8 of the head 4. The means for obtaining the pulsed spraying of the product comprise a membrane 10 disposed at the end of the larger diameter of the chamber of spray. brought frustoconical 7.

La périphérie de la membrane 10 est fixée par serrage entre une partie avant 1' et une partie arrière 1" du corps 1. Ces deux parties 1' et 1" sont assemblées par vissage et doivent être séparées pour le changement de la membrane 10 suite à l'usure causée par le produit sur la face avant de la membrane. La membrane est en un matériau tel que le nitrile. La face exposée à cette usure est selon l'invention revêtue d'une couche en polytétrafluoréthylène (PTFE), ce qui sensiblement augmente la durée de vie de la membrane.The periphery of the membrane 10 is clamped between a front portion 1 'and a rear portion 1 "of the body 1. These two parts 1' and 1" are assembled by screwing and must be separated for the change of the membrane. to wear caused by the product on the front side of the membrane. The membrane is made of a material such as nitrile. The face exposed to this wear is according to the invention coated with a layer of polytetrafluoroethylene (PTFE), which substantially increases the life of the membrane.

Pour la pulvérisation pulsée du produit au niveau de la buse, la membrane 10 est selon l'invention montée oscillante à l'aide d'un pointeau 11 s'étendant dans un alésage central traversant 12 de la deuxième partie 1" du corps 1 et qui est relié à des moyens de commande imprimant un mouvement de va-et-vient à ce pointeau. Le pointeau 11 traverse la membrane 10 par un trou central (non représenté) de celle-ci et est rendu solidaire de cette dernière par des moyens de serrage constitués de brides 13, 14 solidaires du pointeau et disposées de part et d'autre de la membrane 10 afin de la serrer entre elles.For the pulsed spraying of the product at the nozzle, the membrane 10 is according to the invention mounted oscillating with a needle 11 extending in a central through bore 12 of the second portion 1 "of the body 1 and which is connected to control means reciprocating at this needle The needle 11 passes through the membrane 10 through a central hole (not shown) of the latter and is secured to the latter by clamping means consisting of flanges 13, 14 integral with the needle and disposed on either side of the membrane 10 in order to clamp them together.

L'extrémité avant du pointeau peut, comme montré à la figure 1, venir en appui contre un siège 15 immédiatement derrière la buse afin de constituer ensemble des moyens d'obturation intermittente de l'amenée du produit sous pression dans la buse. Le produit passe de la chambre d'entrée de produit 7 à la buse 9 par un espacement annulaire défini entre la paroi interne du canal central 8 et la face externe du pointeau. L'espace derrière la membrane 10 dans la chambre d'entrée de produit est mise à l'air par un conduit 16.The front end of the needle can, as shown in figure 1 , abut against a seat 15 immediately behind the nozzle to form together intermittent sealing means of the supply of the pressurized product into the nozzle. The product passes from the product inlet chamber 7 to the nozzle 9 by an annular spacing defined between the inner wall of the central channel 8 and the outer face of the needle. The space behind the membrane 10 in the product inlet chamber is vented through a conduit 16.

Le pointeau 11 est guidé dans un manchon de guidage 17 placé à l'intérieur de l'alésage central 12 et pourvu de joints d'étanchéité 18.The needle 11 is guided in a guide sleeve 17 placed inside the central bore 12 and provided with seals 18.

La buse 9 constitue ainsi avec le pointeau 11 et la membrane 10 des moyens de pulvérisation pulsée du produit commandés par des moyens de commande pneumatiques comportant un tuyau d'amenée d'air pulsé 19 relié à un conduit 20 qui débouche dans une chambre annulaire 21 formée autour d'une tige de piston 22 s'étendant dans l'alésage central 12 pour être reliée à son piston 23 qui est guidé dans le capuchon 5.The nozzle 9 thus constitutes, with the needle 11 and the membrane 10, pulsed atomization means for the product controlled by pneumatic control means comprising a forced air supply pipe 19 connected to a conduit 20 which opens into an annular chamber 21 formed around a piston rod 22 extending in the central bore 12 to be connected to its piston 23 which is guided in the cap 5.

L'air pulsé arrivant par le tuyau 19 est alimenté dans la chambre annulaire 21 de manière à repousser le piston 23 à l'encontre de l'effet d'un ressort de rappel 24 prenant appui d'un côté contre le piston et de l'autre côté contre une paroi interne du capuchon 5. On obtient un mouvement de va-et-vient du piston 23 et par conséquent aussi du pointeau 11 qui entraîne la membrane 10 dans un mouvement d'oscillation.The pulsed air coming through the pipe 19 is fed into the annular chamber 21 so as to push the piston 23 against the effect of a return spring 24 bearing on one side against the piston and the on the other side against an inner wall of the cap 5. Reciprocating movement of the piston 23 and thus also the needle 11 which drives the diaphragm 10 in a swinging motion.

La figure 1 montre la position avancée du pointeau entre deux pulsations de l'air de commande admis dans la chambre annulaire 21 par le conduit d'air 20, cette position correspondant également à la position du pointeau lorsque le pistolet est arrêté. Dans ce dernier cas, il n'y a pas de fuite de produit par la buse 9, puisque l'extrémité du pointeau se trouve en appui contre le siège 15 immédiatement derrière la buse.The figure 1 shows the advanced position of the needle between two pulses of the control air admitted into the annular chamber 21 by the air duct 20, this position also corresponding to the position of the needle when the gun is stopped. In the latter case, there is no product leakage through the nozzle 9, since the end of the needle is in abutment against the seat 15 immediately behind the nozzle.

Lorsque le piston 23 est repoussé par une pulsation d'air de commande vers l'arrière, en comprimant le ressort 24, jusqu'à la position reculée montrée à la figure 2, l'extrémité du pointeau 11 quitte son siège 15 pour libérer l'accès à la buse de pulvérisation 9 pour le produit sous pression qui passe de la chambre d'entrée de produit 7 à la buse par l'espacement annulaire défini entre la paroi interne du canal central et la face externe du pointeau. En même temps, la zone centrale de la membrane 10 est tirée vers l'arrière pour remplir au maximum la chambre d'entrée de produit 7.When the piston 23 is pushed back by a control air pulsation, by compressing the spring 24, to the retracted position shown in FIG. figure 2 , the end of the needle 11 leaves its seat 15 to release access to the spray nozzle 9 for the pressurized product which passes from the product inlet chamber 7 to the nozzle by the annular spacing defined between the wall internal of the central canal and the outer face of the needle. At the same time, the central zone of the membrane 10 is pulled backwards to fill the product inlet chamber to the maximum.

Entre deux pulsations d'air de commande, le dispositif revient à la position montrée à la figure 1 par un déplacement du piston 23 vers l'avant, sous l'effet de l'action du ressort de rappel 24, pour ainsi déplacer le pointeau 11 vers l'avant en entraînant la membrane par la zone centrale de celle-ci et cela jusqu'à ce que le pointeau vienne en appui contre son siège 15 afin de fermer l'accès du produit à la buse.Between two pulses of control air, the device returns to the position shown in FIG. figure 1 by a displacement of the piston 23 towards the front, under the effect of the action of the return spring 24, to thereby move the needle 11 forward by driving the membrane through the central zone thereof and that up to the needle presses against its seat 15 in order to close the access of the product to the nozzle.

Afin d'améliorer la pulvérisation et de mieux former le jet de produit pulvérisé qui sort de la buse de pulvérisation 9, le pistolet est également pourvu de moyens d'alimentation pulsée en air de pulvérisation débouchant à proximité de la buse de pulvérisation 9. Ces moyens d'alimentation en air de pulvérisation comportent un tuyau d'air comprimé 25 connecté à un conduit d'air 26 débouchant dans une chambre d'entrée d'air globalement circulaire 27 aménagée autour du pointeau 11 dans la partie arrière 1 " du corps 1 du pistolet. Cette chambre d'entrée d'air 27 est, par l'intermédiaire d'un autre conduit d'air dont l'ouverture est indiquée aux figures et qui s'étend dans les parties arrière et avant du corps 1, reliée à une chambre circulaire externe 29 aménagée dans la tête de pulvérisation 4. Cette chambre externe 29 est en communication avec une chambre circulaire interne 30 et les deux chambres sont de manière connue en soi reliées à l'atmosphère par des orifices débouchant à la face avant de la tête de pulvérisation 4.In order to improve the spraying and to better form the jet of sprayed product coming out of the spray nozzle 9, the spray gun is also provided with pulsed air supply means for spraying air opening near the spray nozzle 9. spray air supply means comprise a compressed air pipe 25 connected to an air duct 26 opening into a generally circular air inlet chamber 27 arranged around the needle 11 in the rear part 1 "of the body 1 of the gun This air inlet chamber 27 is, via another air duct whose opening is indicated in the figures and which extends in the rear and front parts of the body 1, connected to an outer circular chamber 29 arranged in the spray head 4. This outer chamber 29 is in communication with an inner circular chamber 30 and the two chambers are in a manner known per se connected to the atmosphere p ar orifices opening to the front face of the spray head 4.

Les orifices 31 de la chambre externe 29 sont aménagés dans une couronne 32 disposée à la face avant de la tête de pulvérisation 4, coaxialement avec la sortie de la buse 9. Ces orifices 31 forment à l'intérieur de la couronne 32 des jets d'air dirigés légèrement vers l'extérieur et convergeant vers le jet de produit.The orifices 31 of the outer chamber 29 are arranged in a ring 32 disposed at the front face of the spray head 4, coaxially with the outlet of the nozzle 9. These orifices 31 form inside the ring 32 air directed slightly outward and converging towards the jet of product.

Les orifices 33 de la chambre interne 30 forment à proximité de la sortie du produit de la buse de pulvérisation 9 des jets d'air dirigés vers l'extérieur et divergeants pour délimiter latéralement le jet de produit.The orifices 33 of the internal chamber 30 form near the outlet of the product of the spray nozzle 9 outwardly directed and diverging air jets to delineate laterally the jet of product.

Les moyens de commande de ces moyens d'alimentation de l'air de pulvérisation sont pour l'alimentation pulsée de l'air compris dans les moyens de commande des moyens de pulvérisation pulsée du produit. Selon l'invention, le pointeau 11 forme également une vanne permettant l'alimentation pulsée de l'air de pulvérisation. Dans ce but, le pointeau comporte un corps de vanne 34 constitué par une partie cylindrique de plus grand diamètre qui à son extrémité arrière est reliée à la tige de piston 22 et qui à son extrémité avant comporte un premier épaulement biseauté 35 destiné à coopérer avec un deuxième épaulement biseauté 36 complémentaire du premier et ménagé à l'intérieur du canal central 8 immédiatement devant la chambre d'entrée 27 de l'air comprimé. Ce deuxième épaulement constitue un siège pour le corps de vanne 34.The control means of these means for supplying the atomizing air are for the pulsed supply of the air included in the control means of the pulsed atomization means of the product. According to the invention, the needle 11 also forms a valve allowing the pulsed supply of the spray air. For this purpose, the needle comprises a valve body 34 constituted by a cylindrical portion of larger diameter which at its rear end is connected to the piston rod 22 and which at its front end has a first beveled shoulder 35 intended to cooperate with a second beveled shoulder 36 complementary to the first and formed inside the central channel 8 immediately in front of the inlet chamber 27 of the compressed air. This second shoulder constitutes a seat for the valve body 34.

Dans la position montrée à la figure 1, qui correspond à une position du dispositif entre des pulsations successives de l'air pulsé de commande et à une position à l'arrêt, la vanne composée du premier et deuxième épaulements 35, 36 fait fonction de moyens d'obturation en empêchant l'alimentation de l'air de pulvérisation vers la tête de pulvérisation 4.In the position shown in figure 1 , which corresponds to a position of the device between successive pulsations of the pulsating control air and to a stationary position, the valve composed of the first and second shoulders 35, 36 acts as a closure means preventing the supplying the spray air to the spray head 4.

Sous l'effet d'une pulsation imprimée au piston 23 qui déplace le pointeau 11 vers l'arrière, le corps de vanne 34 quitte le siège 36 pour laisser libre passage à l'air de pulvérisation vers la tête de pulvérisation. Ce cycle d'ouverture et de fermeture de la vanne se répète pour chaque pulsation.Under the effect of a pulsation printed on the piston 23 which moves the needle 11 rearwards, the valve body 34 leaves the seat 36 to allow free passage to the spray air to the spray head. This cycle of opening and closing of the valve is repeated for each pulse.

Afin d'obtenir un léger retard de l'ouverture du pointeau 11 par rapport à l'ouverture de la vanne 34 pour que l'alimentation de l'air de pulvérisation commence juste avant la sortie intermittente du produit, un deuxième ressort de rappel 37 est disposé à l'intérieur du capuchon 5 pour commander le mouvement du pointeau. Ce deuxième ressort de rappel 37 prend appui d'un côté sur l'extrémité arrière du pointeau et de l'autre côté sur le capuchon 5 pour solliciter l'extrémité avant du pointeau contre le siège 15 de celui-ci. Il existe un léger jeu axial entre le piston 23 et l'extrémité arrière du pointeau 11, ce qui a pour conséquence qu'au début d'une pulsation de l'air de commande, le pointeau s'ouvre avec un léger retard par rapport à la valve 34 et lorsque la pulsation se termine, le pointeau 11 se referme légèrement avant la valve 34.In order to obtain a slight delay in the opening of the needle 11 with respect to the opening of the valve 34 so that the supply of the atomizing air starts just before the intermittent exit of the product, a second return spring 37 is disposed inside the cap 5 to control the movement of the needle. This second return spring 37 is supported on one side on the rear end of the needle and on the other side on the cap 5 to bias the front end of the needle against the seat 15 thereof. There is a slight axial clearance between the piston 23 and the rear end of the needle 11, which has the consequence that at the beginning of a pulsation of the control air, the needle opens with a slight delay relative to at the valve 34 and when the pulsation ends, the needle 11 closes slightly before the valve 34.

Grâce à l'invention, on obtient ainsi un pistolet de pulvérisation à membrane dans lequel on n'a plus besoin d'un automate séparé pour gérer l'alimentation de l'air de pulvérisation et on peut sans problème appliquer une fréquence de fonctionnement élevée avec réponse franche et immédiate.Thanks to the invention, thus obtaining a membrane spray gun in which there is no longer a separate controller to manage the supply of the spray air and can easily apply a high operating frequency with a frank and immediate answer.

Afin d'améliorer la résistance à l'usure des pièces les plus exposées, l'invention propose plusieurs solutions.In order to improve the wear resistance of the most exposed parts, the invention proposes several solutions.

Ainsi, la membrane qui habituellement est fabriqué en nitrile, peut avantageusement être revêtue d'une couche en polytétrafluoréthylène, ce qui augmente considérablement la durée de vie de cette pièce.Thus, the membrane which is usually made of nitrile can advantageously be coated with a polytetrafluoroethylene layer, which considerably increases the service life of this part.

Afin d'éviter d'être obligé de démonter tout le pistolet pour effectuer le changement de l'ensemble du pointeau, l'extrémité de celui-ci est selon l'invention constituée d'un embout interchangeable qui est simplement fixé par vissage. Pour changer cet embout, il suffit d'enlever la tête de pulvérisation pour y avoir accès. Par ailleurs, pour améliorer la résistance à l'usure de cet embout, il peut avantageusement être fabriqué en une résine de synthèse adaptée au produit à pulvériser.In order to avoid having to disassemble the entire gun to effect the change of the entire needle, the end thereof is according to the invention consists of an interchangeable tip which is simply fixed by screwing. To change this tip, simply remove the spray head to access. Moreover, to improve the wear resistance of this tip, it can advantageously be manufactured in a synthetic resin adapted to the product to be sprayed.

Grâce au fait que la buse est fermée par un pointeau dont l'extrémité de fermeture se trouve immédiatement derrière la buse, il n'y plus de risque de coulure de produit par l'ouverture de la buse lorsque le pistolet est arrêté.Due to the fact that the nozzle is closed by a needle whose closing end is immediately behind the nozzle, there is no risk of product running through the opening of the nozzle when the gun is stopped.

D'autres variantes sont bien entendu possibles sans pour autant sortir du cadre de l'invention.Other variants are of course possible without departing from the scope of the invention.

Claims (8)

  1. Automatic gun with a membrane for spraying a product such as a paint which is supplied to the gun at a constant pressure, comprising pulsed means (10, 11) for spraying the product, comprising an oscillation membrane (10) which is associated with means (11) for intermittent closing of the intake of the product to a nozzle (9), and means (19, 22, 23) for controlling pneumatically the said means for pulsed spraying of the product, characterised in that the said closing means comprise a needle (11) which is integral with the said oscillation membrane (10), and passes through the latter such as to be connected to a pulse control unit comprising a piston rod (22) connected to a piston (23) which is controlled by the pulsed air.
  2. Gun according to claim 1, characterised in that the needle (11) is secured to the membrane (10) by clamping means (13, 14) which are disposed on both sides of the membrane.
  3. Gun according to claim 2, characterised in that the clamping means consist of flanges (13, 14) which are integral with the needle (11), and are disposed on both sides of the membrane (10) in order to clamp the latter between them.
  4. Gun according to any one of the preceding claims, characterised in that the front end of the needle (11) extends in a central channel (8) which is provided in a spray head (4), and in that the needle can be supported against a seat (15) which is provided in the central channel (8) immediately behind the spray nozzle (9).
  5. Gun according to any one of the preceding claims, of the type comprising means (25 to 33) of supply pulsed with sprayed air, which open in the vicinity of the spray nozzle (9), and means (11, 23, 34, 35, 36) for controlling the said means of supply pulsed with sprayed air, characterised in that the said means (11, 23, 34, 35, 36) for controlling the said pulsed spray means for the product also comprise the said means (11, 23) for controlling the said means of supply pulsed with sprayed air.
  6. Gun according to any one of the preceding claims, characterised in that the end of the needle (11) consists of an interchangeable joining piece (38).
  7. Gun according to claim 6, characterised in that the joining piece (38) for the needle (11) is made of synthetic resin.
  8. Gun according to any one of the preceding claims, characterised in that on the side which is in contact with the product, the membrane (10) is coated with a layer of polytetrafluorethylene.
EP00401761A 1999-06-23 2000-06-21 Automatic spray gun with a membrane Expired - Lifetime EP1063018B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR9907997A FR2795347B1 (en) 1999-06-23 1999-06-23 AUTOMATIC MEMBRANE GUN FOR SPRAYING A PRODUCT
FR9907997 1999-06-23

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EP1063018A1 EP1063018A1 (en) 2000-12-27
EP1063018B1 true EP1063018B1 (en) 2009-12-09

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US (1) US6378783B1 (en)
EP (1) EP1063018B1 (en)
AT (1) ATE451176T1 (en)
DE (1) DE60043478D1 (en)
ES (1) ES2339633T3 (en)
FR (1) FR2795347B1 (en)

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CN111515045A (en) * 2020-05-15 2020-08-11 扬州荣德新能源科技有限公司 Method for installing spray gun of robot suitable for casting single crystal

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FR2795347A1 (en) 2000-12-29
ES2339633T3 (en) 2010-05-24
US6378783B1 (en) 2002-04-30
DE60043478D1 (en) 2010-01-21
ATE451176T1 (en) 2009-12-15
EP1063018A1 (en) 2000-12-27
FR2795347B1 (en) 2001-08-03

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