• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates in particular to a process for producing preforms, by draping fibers on a draping surface, comprising conveying at least one dry fiber (91) from a storage and distribution system to a head of draping, and the application during the draping of a liquid or pasty binder on said fiber and / or on the draping surface and / or previously draped fibers. Said application is made by means of at least one valve nozzle (50) comprising a chamber (51) supplied with pressure binder and provided with a discharge orifice (53), and a valve (54) movably mounted in the chamber and actuated by actuating means (55, 56) between a closed position and an open position, said actuating means being controlled by a control system (73) as a function of the running speed of the fiber.
    公开号:FR3016827A1
    申请号:FR1400164
    申请日:2014-01-24
    公开日:2015-07-31
    发明作者:Alexander Hamlyn;Johann Caffiau;Yvan Hardy
    申请人:Coriolis Composites SAS;
    IPC主号:
    专利说明:

    [0001] The present invention relates to a method for producing preforms by draping on a fiber lay-up surface and in-line application of a binder. The present invention also relates to a process for producing composite material parts from such preforms, and a fiber draping machine for producing such preforms. Fiber applicator or draping machines are known for automatically draping on draping tools, such as a male or female mold, a broad band formed of one or more fibers, in particular continuous fibers. flat ribbon type, in particular carbon fibers consisting of a multitude of carbon threads or filaments. These machines conventionally comprise a fiber application head comprising guiding means for guiding the fiber or fibers to the draping surface. These machines further comprise fiber storage means, and routing means for conveying fibers from said storage means to the head, and possibly a moving system of the drape head. In the case of a band formed of several fibers, also called bits, the means for guiding the head make it possible to bring the fibers in the form of a strip to the draping surface, in which the fibers are arranged in a substantially parallel manner. edge to edge, or with a defined spacing between two adjacent fibers. For draping in contact with the fibers, these machines, conventionally called fiber placement machines, comprise a head equipped with a compacting roller intended to come into contact against the draping surface to apply the strip, the guide means guiding the fibers. fibers to the roll in the form of a band. The fibers applied may be fibers pre-impregnated with a thermoplastic or thermosetting resin, dry fibers, and / or dry fibers provided with a binder, conventionally referred to as "binder", to impart stickiness to the fibers during draping. In the case of a lay-up of resin pre-impregnated fibers, the so-called pre-impregnated preform, obtained after draping, is subsequently cured or polymerized by passing through an oven to obtain a piece of composite material. In the case of dry fibers, with or without a binder, resin is injected or infused into the so-called dry preform before a curing step. Dry preforms with binder include a small amount of binder, generally less than 5%, to maintain the cohesion of the preform, while allowing its subsequent impregnation. For the draping of dry fibers provided with a binder, a first technique consists in producing a coating of the binder in line, for example at the level of the head. The patent document WO2006 / 092514 in the name of the Applicant describes in particular a resin application between the output of the guide means and the compacting roller by means of a lip nozzle. The lip nozzle is fed with resin by volumetric dosing means comprising metering pumps each formed of a piston slidably mounted in a cylinder and moved by an actuator. Servo control of the actuators can be complex to ensure correct dosing accuracy, particularly in the case of application of a small amount of binder, and / or for high draping speeds, for which it can be it is necessary to maneuver the piston in the opposite direction at the end of the stroke to avoid the formation of drops of resin at the outlet of the nozzle. A second solution is to use fibers already coated with a binder by the raw material supplier. It is proposed to date such fibers, called powdered and / or veiled, packaged in coils, in which the binders are in the form of powder and / or a veil on one surface or on each surface of the fibers. This technique has the drawback of implementing an expensive product that is difficult to use for certain applications, particularly in the automotive field. The object of the present invention is to propose a solution to overcome the aforementioned drawbacks. For this purpose, the present invention provides a method of making preforms by draping fibers on a drape surface, including conveying at least one dry fiber from a storage and dispensing system to a head. draping device for draping said fiber on a draping surface, characterized in that it comprises, during the draping of said fiber, the application of a liquid or pasty binder to said fiber and / or to the draping surface and / or fibers previously draped, said application being carried out by means of at least one valve nozzle comprising a chamber fed by pressure binder via a feed orifice and provided with a discharge orifice and, a valve mounted movably in the chamber and actuated by actuating means between a closed position to close the discharge port and an open position for delivering the binder under pressure through its discharge port, said actuating means ent being controlled by a control system as a function of the speed of travel of the fiber to actuate the valve between its open position and its closed position. According to the invention, the draping is made from dry fibers 15 and binder application is carried out in line as draping by means of one or more valve nozzles actuated according to the speed according to the fibers. The method according to the invention makes it possible to drape dry fibers with binder starting from an inexpensive raw material. The use of valve nozzles 20 allows a simple and precise online application of binder. The fibers are continuous and preferably comprise a multitude of continuous or non-continuous yarns or filaments, and preferably are in the form of a ribbon having two opposite major faces. Different types of dry fibers can be implemented. By way of non-limiting example, the dry fibers used are carbon fibers, glass fibers, aramid fibers, polyethylene fibers, and / or natural fibers, such as, for example, flax fibers. . The binder used may comprise one or more thermosetting resins, for example an epoxy, polyester, vinylester, phenolic, polyimide or bismaleimide resin, or one or more thermoplastic resins, for example a polyamide, thermoplastic polyester, polyethersulfone, polyetheretherketone or polyurethane resin. thermoplastic, thermoplastic epoxide, or polyolefin. According to a feature, said control system controls the opening / closing cycle frequency of the valve as a function of the speed of travel of the fiber, each opening / closing cycle of the valve comprising the movement of the valve from its closed position. towards its open position and the movement of the valve from its open position to its closed position. According to one embodiment, the flapper nozzle is associated with a lip nozzle, the discharge orifice of the flapper nozzle being connected to the supply channel of the lip nozzle, the application of binder is carried out by contact of the fiber with the lip nozzle. The use of such a lip nozzle makes it possible to apply binder over substantially the entire width of the fiber and thus to ensure adhesion of each fiber over its entire width during draping and to obtain good quality. draping. According to another embodiment, the binder is applied by spraying the binder via the discharge orifice, without contact between the valve nozzle and the fiber and / or the drape surface. According to one embodiment, the binder is projected onto the fiber and is scraped onto the fiber via a scraper system disposed downstream of the flapper nozzle. According to one embodiment, the method comprises draping strips formed from one or more fibers by means of a draping head, preferably provided with a compacting roll for draping in contact with said strip against the draping surface. binder application being effected by a plurality of valve nozzles, each nozzle applying the binder independently for a group of adjacent fibers or for a single fiber, in particular on a group of adjacent fibers or on a single fiber. Preferably, the draping method is a tape placement method comprising draping in contact with a wide web of a broad ribbon type fiber, or a fiber placement method including draping in contact with a web. broad band formed of several fibers, in particular of the ribbon type. The method then comprises draping strips formed from one or more fibers by means of a draping head provided with a compacting roll for draping in contact with said web against the draping surface, the binder application being carried out independently on each fiber in the case of multi-fiber web placement. According to one embodiment, the method comprises a step of blooming each fiber, before the application of the binder to the fiber and / or after the application of the binder to the fiber, in particular when the binder applied does not make it possible to guarantee a good cohesion in width of the fiber. According to one embodiment, the method comprises applying binder to both sides of each fiber. According to one embodiment, the application of binder on the fiber or fibers is carried out at the level of the fiber storage and distribution system, which is offset from the draping head, said method comprising the conveyance of the fiber or fibers equipped with binder up to the draping head, heating the fiber or fibers with binder, at the level of the draping head, in particular downstream of the guide means, to allow the adhesion of said fiber to the draping surface and / or one or more fibers provided with binder previously draped on said draping surface. The application step of the binder 15 may be followed by a step of cooling the fiber provided with the binder, in order to reduce the tackiness of the fiber provided with the binder for its transport to the lay-up head, for example via routing means comprising flexible tubes, each fiber passing through the internal passage of a flexible tube. According to another embodiment, the application of binder to the fiber or fibers is carried out at the level of the draping head, the valve nozzle (s) being mounted on the head to apply the binder to the fibers just prior to their contact. with the draping surface, in particular at the outlet of the guiding means, or for applying the binder to the draping surface, by projection, without contact between the valve nozzle and the draping surface. The present invention also relates to a process for manufacturing parts made of composite material, characterized in that it comprises: - the production of a preform by draping fibers as defined above; a step of impregnating the resin in the preform, said impregnation step comprising the addition of one or more resins by infusion or injection, or heating the preform to impregnate the whole of the preform, or the resins forming the binder; and, a hardening step.
    [0002] According to a first embodiment, the method according to the invention is a method for producing dry preforms, comprising the application of a binder to dry fibers and / or the application surface, to form a dry preform comprising less 10% by weight of binder, preferably less than 5% by weight of binder, said dry preform being subsequently subjected to an impregnation operation of a resin to form a composite part. According to a second embodiment, the method is a process for producing pre-impregnated preforms, comprising the application of a binder formed from one or more resins to form a pre-impregnated preform comprising at least 30% by weight. binder weight, preferably at least 40% by weight of binder, the pre-impregnated preform being not subsequently subjected to an impregnation operation, for a core impregnation of the binder in the fibers, then a curing operation. The present invention also relates to a fiber draping machine comprising a drape head comprising guiding means for guiding one or more fibers to a draping surface, and preferably a compaction roller intended to come into contact against the surface draping apparatus, a storage and dispensing system for storing and dispensing at least one fiber, conveying means for conveying the fiber or fibers from said storage and dispensing system to the guide means of the draping head, and means application method for applying a binder to the fiber or fibers, characterized in that the binder application means comprise at least one valve nozzle comprising a chamber fed by pressure binder via a feed orifice and provided with a discharge port, and a valve movably mounted in the chamber and actuated by actuating means between a closed position to close the discharge port e t an open position to deliver the binder under pressure through its discharge port, said actuating means being controlled by a control system according to the speed of travel of the fiber to actuate the valve between its open position and its closed position .
    [0003] According to a feature, said control system controls the opening / closing cycle frequency of the valve as a function of the speed of travel of the fiber. According to one embodiment, each flapper nozzle is associated with a lip nozzle, the discharge orifice of the flapper nozzle being connected to the supply channel of the lip nozzle. According to another embodiment, the application means comprise a scraper system disposed downstream of the valve nozzle or nozzles. The binder application means may be mounted in the fiber storage and distribution system or in the draping head as previously described. According to one embodiment, the machine comprises a system for expanding and calibrating the fibers arranged upstream and / or downstream of the application means, preferably at least downstream from the application means, the application of binder advantageously to freeze the dimensions of the fibers to be draped. The machine according to the invention can be: - a tape placement machine for application in contact with a wide band formed of a broad ribbon type fiber or bit, or - a fiber placement machine for application in contact with a broad band formed of several fibers or wicks, in particular of the ribbons type, or - a machine for the non-contact application, for example a filament winding machine for the application of a strip formed of one or more fibers, in particular ribbon type. In the case of a web placement machine or fiber placement machine, the head comprises a compacting roll for draping in contact with a web of one or more fibers, said machine being in addition to a system for moving the drape head. According to one embodiment, the storage and dispensing system is disposed at a distance from the drape head, for example disposed on the ground or is mounted on one of the elements of the head displacement system. According to another embodiment, the storage and distribution system is integrated in the application head, the conveying means are for example formed of pulleys carrying the fibers of said storage and distribution system to the guide means of the head, a displacement system for moving the head and the storage and distribution system. The invention will be better understood, and other objects, details, features and advantages will become more clearly apparent from the following detailed explanatory description of particular embodiments of the invention, with reference to the accompanying schematic drawings, in which: Fig. 1 is a schematic side view of a fiber draping machine according to one embodiment; FIG. 2 is an enlarged partial schematic view of the creel of the machine of FIG. 1, illustrating the means for applying binder to the fibers; FIG. 3 is a schematic partial view from above of FIG. 2; - Figure 4 is a schematic top view of fibers after application of the binder according to an alternative embodiment; - Figure 5 is a schematic side view similar to that of Figure 2, illustrating a first embodiment of the application means; FIGS. 6A, 6B and 6C are diagrammatic top views of fibers after application of the binder illustrating different types of binder application with the application means of FIG. 5; - Figure 7 is a schematic side view similar to that of Figure 2, illustrating a second embodiment of the application means; FIG. 8 is a diagrammatic side view of a fiber application head equipped with binder application means according to a second embodiment of the invention; - Figure 9 is a schematic side view similar to that of Figure 9, illustrating a first embodiment; and FIG. 10 is a view similar to that of FIG. 7, illustrating a second variant embodiment. FIG. 1 schematically illustrates a fiber placement machine according to the invention, allowing draping of a strip formed of several fibers in contact with a mold. The machine comprises a displacement system 1 which is formed of a poly-articulated arm 11, of the six-axis poly-articulated robot type, known per se, mounted movably on a linear rail 12 fixed to the ground. The poly-articulated arm 11 is fixed by its base 112 on a carriage 13 slidably mounted on the rail 12. A placement head 2 is mounted at the end wrist 1a of the poly-articulated arm. The head comprises, in known manner, guiding means for guiding a plurality of fibers in the form of a web to a compaction roller 21, the compaction roller being adapted to come into contact with a mold for applying the web. The head further comprises cutting means for individually cutting each fiber, re-routing means for rerouting each cut-off fiber, in order to be able to stop and resume the application of a fiber at any time, as well as to choose the width of the band, and locking means for blocking a fiber that has just been cut. For example, the machine comprises a drape head as described in the patent WO2008 / 132299. The machine is provided here for the lay-up of fibers 91, for example of carbon fiber type, in the form of ribbon, packaged in coils. The storage and dispensing system comprises a creel 3 for receiving dry fiber bobbins and delivering the fibers independently of one another. Each coil is mounted on a mandrel 31, motorized or not. By way of example, each mandrel is rotatably mounted and is equipped with an automatic braking system controlled in a closed loop as a function of the tension of the fiber. The creel is also mounted on a follower carriage 32, disposed on the rail 12 and mechanically connected to the carriage 13 carrying the robot. In the illustrated embodiment, the machine and provided for draping a strip of eight fibers 9, the creel comprising comprises eight coils 90 of fiber. The conveying means for conveying the fibers of the creel to the placing head are here formed of flexible tubes, as described for example in the patent document WO2012 / 160270. The tubes are gathered in a bundle, schematically shown as 40, and are placed in the internal passage of a flexible sheath 41, optionally cooled to cool and hold the fibers at a low temperature, at which the fibers remain slightly tacky. According to the invention, the machine is equipped with means 5 for applying binder, arranged here at the level of the creel 3, and provided for applying a binder in liquid or pasty form on one face of each dry fiber. With reference to FIG. 2, the application means comprise a valve nozzle 50 for each fiber and a supply system 71 for supplying the pressurized resin valve nozzles. Each nozzle 5 comprises a chamber 51 with a supply port 52 for connection to the supply system 71 via a supply line 72, and a discharge port 53. A valve 54 is movably mounted in the chamber and is movable between a closed position in which the valve cooperates with the lower portion of the chamber, shaped as a seat, to close the discharge port, and an open position in which the valve is away from the seat to open the discharge port. This valve is controlled opening and closing by an actuating system comprising a rod 55 which extends substantially axially in the chamber and which carries at its free end the valve 54. This rod is adapted to be operated in translation by actuating means 56 for moving the valve between its two positions. These actuating means, for example of electric or pneumatic type, are controlled by a control system 73, as illustrated by the control line shown schematically under the reference 74. A flapper nozzle is disposed above each fiber unrolled from its reel. Referring to Figure 3, the nozzles are for example arranged in two rows, the nozzles of the same row are assembled to a crossbar 75 above the fibers. The pressurized binder feed system 71 comprises a heating vessel in which the binder is heated to bring the binder to a temperature at which the binder has a viscosity suitable for its application by means of the nozzle. The tank is connected, via a pipe equipped with a first pump, to a circulation loop, in order to supply said circulation loop by binding under pressure. The circulation loop is equipped with a second pump known as a circulation pump. The nozzles are connected in parallel with the circulation loop via their supply line 72. The pipes and the circulation loop as well as the nozzles are equipped with heating means to maintain the binder at the same temperature until it is applied. on the fibers. Upstream of the application means, the dry fibers advantageously pass into a blooming and calibration system 6, making it possible to calibrate the fibers to a desired width before applying the binder. This blooming and calibration system Io comprises a set of fixed and / or mobile rollers over which the fibers pass in order to obtain a development of the fibers, as well as lateral guiding systems for calibrating the fibers in width. By way of example, the system comprises for each fiber two mobile rollers 61, 62 over which the fiber passes. At the output of these two rollers, the fiber passes between two movable rollers 63. The control system 73 is connected to sensors to receive information representative of the speed of travel of each fiber. Each fiber passes for example on a roller equipped with an encoder connected to the control system to communicate the speed of travel of the fiber. In the present embodiment, the roller 62 of each calibration system is equipped with an encoder 76, each encoder is connected to the control system via a line shown schematically as 77. The control system controls the cycle frequency opening / closing the valve as a function of the speed of travel of the fiber. Downstream of the nozzles, a cooling system 8 is provided for cooling the binder-coated fibers before they are conveyed to the head at a temperature at which the fibers are little or not tacky. This cooling system generates, for example, an air flow towards the fibers. The creel can also be equipped with a tension limiter system 42 (FIG 1), as described in patent document WO2006 / 092514, in which the fibers leaving the application means pass, in order to limit the tension in the fiber before entering the conveying tubes.
    [0004] The placement head 2 is equipped with heating means for heating the fiber provided with the binder and thus softening said binder in order to promote the adhesion of the fiber to the draping support and / or the previously draped fibers.
    [0005] By way of example, the fibers placed in the creel are dry carbon fibers, consisting of a multitude of carbon filaments and a small amount of sizing resin, of the order of 0.2% by weight. weight. The machine is used to make a dry preform, after applying the binder via the valve nozzles, each fiber comprises about 5% by weight of binder. The binder comprises, for example, an epoxy resin, conventionally called an epoxy resin, optionally with one or more adjuvants, in particular plasticizers. As illustrated in FIG. 3, the nozzles are set to apply dots or drops of binder 92. Each opening / closing cycle of the valve 54 comprises the movement of the valve from its closed position to its open position and the movement the valve from its open position to its closed position. Between these two movements, the valve remains in the open position for a determined opening time. The amount of binder deposited is defined by determining the opening time, the binder pressure in the chamber and the viscosity of the binder. The binder pressure in the chamber is set by adjusting the first pump of the feed system. The viscosity of the binder is defined by adjusting the temperature of the binder in the application means. At each open / close cycle, the nozzle delivers a defined amount of binder, and the control system controls the cycle frequency as a function of the running speed of the fiber. The application of the binder is done without contact between the nozzle and the fiber, the binder is sprayed as drops on the fiber at each opening of the nozzle.
    [0006] After making a dry preform by draping several plies, the dry preform can be subjected to an infusion or resin injection operation and then a curing operation to obtain a composite part. The infusion or injection resin is similar to that used as a binder, the hardener of this resin for curing the resin used as a binder.
    [0007] A preform in the form of a plate with the desired dimensions can be obtained by draping several plies. The binder applied to the fibers allows deformation of the preform. This may be placed in a mold corresponding to the final shape of the desired composite part in which the resin impregnation operation will be carried out by injection or infusion. According to another example, the machine is used for producing pre-impregnated preforms comprising at least 40% by weight of resin. The preform obtained after draping can then be subjected to a heating and pressurizing operation to impregnate the resin homogeneously throughout the preform, then a consolidation operation to obtain a composite part. Alternatively, the nozzles are set to apply binder strings or beads, as shown in FIG. 4. These strings can be obtained by increasing the valve opening time at each cycle. FIG. 5 illustrates an embodiment variant, in which each valve nozzle 50 is associated with a lip nozzle 8, the valve nozzle supplying the lip nozzle to perform an application in contact with the binder on the fiber. The lip nozzle 8 comprises, in a manner known per se, two plates or bars 80a, 80b enclosing a foil 81 provided with a slot. One 80b of the two bars is provided with a supply channel 82, opening on said slot and connected to the discharge orifice 53 of the flapper nozzle. The fiber advantageously passes over two rollers 83 disposed on either side of the lip nozzle, to be brought into abutment against the lip nozzle, in particular against the lower edges of the lip bars. The valve nozzle operates as described above, and feeds the resin lip nozzle when its valve is in the open position. The lip nozzle is used to spread the binder delivered by the flapper nozzle onto the fiber in the form of a layer or film. The width of the layer is defined by the width of the slit of the foil. In this variant embodiment, the cooling system comprises rollers 178 on which the fibers leaving the lip nozzles pass. These rollers are cooled by appropriate means such as a cooling system in which a coolant circulates.
    [0008] By way of example, the slit of the foil has a width substantially equal to the width of the fiber. The valve nozzle is controlled to form a discontinuous layer, as shown in FIG. 6A, the fiber having longitudinally alternating bonded and non-bonded areas, or to form a continuous layer of binder, such as shown in Figure 6B. In the latter case, the nozzles are advantageously adjusted so as to be held in the open position when the head has reached its maximum draping speed, for example lm.s-1, and the opening / closing cycle frequency only varies io during the acceleration and deceleration phases. FIG. 6C illustrates an embodiment variant in which the applied continuous layer comprises two longitudinal strips offset transversely from one another. Such a layer is obtained by means of a foil having two slots offset from one another. The two slots are fed by binder through a groove on the internal contact face of the bar 80b on which opens the supply channel 82 of the lip nozzle. According to an alternative embodiment, the application means comprise a single lip nozzle associated with a plurality of valve nozzles, for example a lip nozzle for each said row of valve nozzles. Each lip nozzle then comprises a foil provided with a plurality of slots, each slot being connected via a supply line to a discharge orifice of a flapper nozzle. FIG. 7 illustrates an alternative embodiment in which each valve nozzle 50 is associated with a scraper system 108, disposed downstream of the lip nozzle with respect to the direction of travel of the fiber, for spreading on the face of the fiber. points or binder cords deposited by the flapper nozzle. The fiber advantageously passes over two rollers 183 arranged on either side of the scraper system, to be brought against the scraper system. According to an alternative embodiment, the application means make it possible to apply the binder to the two faces of each fiber and comprise, for example, a flapper nozzle on either side of each fiber, each flap nozzle being optionally associated with a lip nozzle.
    [0009] According to another embodiment, the binder application means are not arranged in the creel but at the level of the fiber placement head, as illustrated in FIG. 8. The placement head 102 comprises a compacting roller 121, a guide system 122 for guiding the fibers entering the head towards the roll in the form of two layers of fibers 191a 191b arranged in two planes P1, P2 for guiding, to form a fiber web in which the fibers are disposed substantially edge to edge. This guidance system comprises for example guide channels, in which the fibers pass, formed at the assembly interface of a central piece 122a, wedge-shaped, and two side plates (not shown). The guidance system is mounted on a support structure (not shown) by which the head is assembled to the wrist of the robot described above. Alternatively, the head is fixed and the drape area of the mold is movable relative to the head to perform draping operations. The head further comprises, on either side of the guiding system, cutting means 123, locking means 124 and rerouting means 125. The head is equipped with valve nozzles 50 for applying binder 20 to the fibers upstream of the guiding system. The head comprises for example a fiber valve nozzle allowing the application of binder point or cords as described above. As before, the valve nozzles are controlled according to the speed of advance of the fibers. Alternatively, each valve nozzle may be equipped with a lip nozzle as previously described. Cooling systems 8 are advantageously arranged downstream of the nozzles to allow cooling of the binder before the passage of fibers in the guiding system 122. The placement head 102 further comprises heating means, formed for example of a system Infrared lamp heater 126, for heating the fiber provided with the binder at the outlet of the guide system, as well as the drape surface and / or the previously draped fibers. FIG. 9 illustrates an alternative embodiment in which the head 202 is equipped with flapper nozzles able to apply the binder to the fibers at the outlet of the guiding system 122, the head comprising a fiber valve nozzle. Alternatively, each valve nozzle can be equipped with a lip nozzle as described above. FIG. 10 illustrates an alternative embodiment in which the head 302 is equipped with flapper nozzles able to apply the binder, upstream of the roll, on the draping surface or on previously draped fibers. The head comprises a flapper nozzle by fiber, driven according to the speed of travel of the fiber. Although the invention has been described in connection with various particular embodiments, it is obvious that it is in no way limited thereto and that it includes all the technical equivalents of the means described as well as their combinations if These are within the scope of the invention.
    权利要求:
    Claims (14)
    [0001]
    REVENDICATIONS1. A method of making preforms by draping fibers on a draping surface, comprising conveying at least one dry fiber (91) from a storage and dispensing system (3) to a lay-up head (2) , 102, 202, 302) for draping said fiber on a draping surface, characterized in that it comprises, during the draping of said fiber, the application of a binder (92) liquid or pasty on said fiber and / or on the drape surface and / or previously draped fibers, said application being effected by means of at least one valve nozzle (50) comprising a chamber (51) supplied with pressurized binder via a feed orifice (52). ) and provided with a discharge port (53), and a valve (54) movably mounted in the chamber and actuated by actuating means (55, 56) between a closed position to close the discharge port and a open position for delivering the binder under pressure through its discharge orifice, said means ns actuation being controlled by a control system (73) as a function of the speed of travel of the fiber to actuate the valve between its open position and its closed position.
    [0002]
    2. Method according to claim 1, characterized in that said control system (73) controls the opening / closing cycle frequency of the valve (54) as a function of the running speed of the fiber.
    [0003]
    3. A method according to claim 1 or 2, characterized in that the flapper nozzle (50) is associated with a lip nozzle (8), the discharge orifice (53) of the flapper nozzle being connected to the channel supply (82) of the lip nozzle, the application of binder is carried out by contact of the fiber with the lip nozzle.
    [0004]
    4. Method according to claim 1 or 2, characterized in that the binder is applied by spraying the binder via the discharge orifice.
    [0005]
    5. Method according to claim 4, characterized in that the binder is sprayed onto the fiber and is scraped on the fiber via a scraper system (108) disposed downstream of the flapper nozzle.
    [0006]
    6. Method according to one of claims 1 to 5, characterized in that it comprises the blooming of each fiber, before the application of the binder on the fiber and / or after the application of the binder on the fiber. 3 0 16 82 7 18
    [0007]
    7. Method according to one of claims 1 to 6, characterized in that it comprises the application of binder on both sides of each fiber.
    [0008]
    8. Method according to one of claims 1 to 7, characterized in that it comprises draping strips formed of one or more fibers 5 by means of a head (2) of draping, the application of binder being performed by a plurality of valve nozzles, each nozzle applying the binder independently for a group of adjacent fibers or for a single fiber.
    [0009]
    9. Method according to one of claims 1 to 8, characterized in that the application of binder on the fiber or fibers is performed at the level of the fiber storage and distribution system, said method comprising the conveyance of the or binder-bound fibers to the drape head, and heating the binder-bonded fiber (s) to allow adhesion of said fiber to the drape surface and / or one or more binder-bonded fibers previously draped on said draping surface.
    [0010]
    10. Method according to one of claims 1 to 8, characterized in that the application of binder on the fiber or fibers is carried out at the level of the draping head (102, 202, 302), or the clamshell nozzles (50) being mounted on the head to apply the binder to the fibers just prior to contact with the drape surface, or to apply the binder to the drape surface by spraying.
    [0011]
    11. A method of manufacturing parts made of composite material, characterized in that it comprises - the production of a preform by lay-up fibers according to one of claims 1 to 10; a resin impregnation step in the preform, said impregnation step comprising the addition of one or more resins by infusion or injection, or the heating of the preform to impregnate the whole of the preform, or the resins forming the binder; and, a hardening step.
    [0012]
    A fiber draping machine comprising - a drape head (2) having guide means for guiding one or more fibers to a drape surface; a storage and dispensing system (3) for storing and dispensing at at least one fiber (9), conveying means (40) for conveying the fiber or fibers from said storage and dispensing system to the guide means of the draping head, and application (5) for applying a binder to the fiber or fibers characterized in that the binder application means comprises at least one valve nozzle (50) comprising a chamber (51) supplied with pressurized binder via an orifice with a discharge port (53) and a valve (54) movably mounted in the chamber and actuated by actuating means (55,56) between a closed position to close the supply port (52). discharge port and an open position to deliver the binder under pressure by said discharge means, said actuating means being controlled by a control system (73) as a function of the speed of travel of the fiber for actuating the valve between its open position and its closed position.
    [0013]
    13. Machine according to claim 12, characterized in that said control system (73) controls the opening / closing cycle frequency of the valve (54) as a function of the running speed of the fiber.
    [0014]
    14. Machine according to claim 12 or 13, characterized in that each flapper nozzle (50) is associated with a lip nozzle (8), the discharge orifice (53) of the flapper nozzle being connected to the flange channel. supply (82) of the lip nozzle. 25
    类似技术:
    公开号 | 公开日 | 专利标题
    EP1855870B1|2016-02-17|Fiber application machine
    EP3096941B1|2019-06-05|Method for producing preforms from fibres with in-line application of a binder, and corresponding machine
    CA2774822C|2017-03-28|Automated drape-forming device
    EP3446868B1|2019-12-25|Method of fabrication of aribbon of filaments with constant width for the production of composite parts by direct method and corresponding ribbon
    FR2982793B1|2019-06-28|BI-DIRECTIONAL FIBER APPLICATION HEAD
    WO2015018801A1|2015-02-12|Yarn laying head for producing composite parts
    WO2014096562A2|2014-06-26|Method for producing preforms from fibers provided with a binder, and corresponding machine
    WO2015170016A1|2015-11-12|Method and machine for creating preforms by compactionless application of oriented fibers
    EP3426452B1|2020-02-12|Process for producing preforms with application of a binder to dry fiber, and corresponding machine
    FR2996801A1|2014-04-18|FIBER PLACING MACHINE COMPRISING A ROLLER REGULATED IN TEMPERATURE
    EP3678826A1|2020-07-15|Process for producing preforms with application of a binder to dry fibre formed from a plurality of initial fibres
    FR3041281A1|2017-03-24|ROLL OF FIBER PLACING MACHINE WITH VACUUM-ASSISTED RIBBON MANIPULATION
    EP3170650A1|2017-05-24|Manufacturing method for manufacturing a composite strip and corresponding production facility for the production of a ship sail
    FR3048376A1|2017-09-08|FIBER APPLICATION MACHINE COMPRISING A BELT CONVEYOR AND METHOD FOR PRODUCING PARTS USING SUCH A MACHINE
    FR3037524A1|2016-12-23|FIBER APPLICATION HEAD WITH PARTICULAR GUIDE SYSTEM
    同族专利:
    公开号 | 公开日
    FR3016827B1|2016-02-05|
    WO2015110728A1|2015-07-30|
    EP3096941A1|2016-11-30|
    EP3096941B1|2019-06-05|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB1596793A|1977-06-28|1981-08-26|Secr Defence|Laminating apparatus|
    EP2314435A2|2009-10-08|2011-04-27|General Electric Company|Resin application and infusion system|FR3048373A1|2016-03-07|2017-09-08|Coriolis Composites|PROCESS FOR MAKING PREFORMS WITH APPLICATION OF A BINDER ON DRY FIBER AND CORRESPONDING MACHINE|
    FR3070625A1|2017-09-07|2019-03-08|Coriolis Composites|PROCESS FOR MAKING PREFORMS WITH APPLICATION OF A BINDER ON DRY FIBER FORMED OF SEVERAL INITIAL FIBERS|
    US10821682B2|2015-10-28|2020-11-03|Coriolis Group|Fiber application machine comprising specific cutting systems|FR2882681B1|2005-03-03|2009-11-20|Coriolis Composites|FIBER APPLICATION HEAD AND CORRESPONDING MACHINE|
    FR2913365B1|2007-03-06|2013-07-26|Coriolis Composites Attn Olivier Bouroullec|FIBER APPLICATION HEAD WITH PARTICULAR FIBER CUTTING SYSTEMS|
    FR2975335B1|2011-05-20|2013-05-17|Coriolis Composites Attn Olivier Bouroullec|FIBER APPLICATION MACHINE WITH FLEXIBLE FIBER DELIVERY TUBES WITH FLEXIBLE BLADES|DE102017124417A1|2017-10-19|2019-04-25|Deutsches Zentrum für Luft- und Raumfahrt e.V.|Device and method for depositing a fiber material|
    法律状态:
    2015-01-21| PLFP| Fee payment|Year of fee payment: 2 |
    2015-12-22| PLFP| Fee payment|Year of fee payment: 3 |
    2016-12-21| PLFP| Fee payment|Year of fee payment: 4 |
    2017-12-21| PLFP| Fee payment|Year of fee payment: 5 |
    2018-12-07| TP| Transmission of property|Owner name: CORIOLIS GROUP, FR Effective date: 20180925 |
    2019-12-19| PLFP| Fee payment|Year of fee payment: 7 |
    2021-10-08| ST| Notification of lapse|Effective date: 20210905 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1400164A|FR3016827B1|2014-01-24|2014-01-24|PROCESS FOR MAKING PREFORMS FROM FIBERS WITH ONLINE APPLICATION OF A BINDER AND CORRESPONDING MACHINE|FR1400164A| FR3016827B1|2014-01-24|2014-01-24|PROCESS FOR MAKING PREFORMS FROM FIBERS WITH ONLINE APPLICATION OF A BINDER AND CORRESPONDING MACHINE|
    EP15701827.6A| EP3096941B1|2014-01-24|2015-01-12|Method for producing preforms from fibres with in-line application of a binder, and corresponding machine|
    PCT/FR2015/000012| WO2015110728A1|2014-01-24|2015-01-12|Method for producing preforms from fibres with in-line application of a binder, and corresponding machine|
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