FR2529871A1 - Machine for coating any surface with a composite material made from fibres and resin. - Google Patents

Abstract

The invention relates to a machine for coating a surface with a composite material, made from fibres and resin, in strip (tape) form. According to the invention, the head 8a for laying down the strip (tape) Rb 2 on the surface 3 is mounted so as to be able to pivot with respect to its support 5 in such a way that its median plane MM' always remains perpendicular to the line of contact B1-B2 of the strip (tape) with the surface 3 regardless of the irregularities of the latter. This machine may be used for producing various structures in the aeronautical construction industry.

Description

 The present invention relates to a machine for coating a surface of any shape, for example a surface of an overhead vehicle structure, with a composite material of fibers and resin, delivered to the machine in the form of a ribbon of composite material covered on at least one side by a thin protective strip.

 For some time now, the aeronautical construction has used structures formed essentially by superimposed layers of a composite material of fibers, in particular carbon fibers, and resin, generally of synthetic resin.While, during the first attempts, the operations In the case of stratification being carried out manually, it soon became possible to envisage the production of a machine that would allow automatic stratification, under conditions of cost, speed and reproducibility, obviously much greater than such a machine, which also makes it possible to achieve large structures.

 It has already been realized a machine of the type indicated above, which has a head of depositing the composite material, and a support adapted to move said tette by translation parallel to a reference plane (I, Y) and along an axis (z), perpendicular to this plane (X, Y), as well as by pivoting about this axis (Z); its head includes means for scrolling the composite ribbon, in the opposite direction to the direction of advance (X) of the head, as symmetrically as possible with respect to the mediating plane of said head, so that the ribbon Composite passes into contact with a device to separate the protective strip from the tape while applying it to the surface to be coated in a line as close as possible to the relief of said surface.

This known machine has many disadvantages: in particular, if the application line of the part / ribbon which, by the effect of the application device,
exactly matches the relief of the surface to be coated,
is not entirely contained in the plan / reference (I, Y),
that is to say generally the horizontal plane, the solidari
between this applied part of the ribbon and its part
upstream, if only through the band
protector, has the effect of disrupting the scrolling
said upstream portion of the ribbon, which stops scrolling symmetrically
compared to the mediation plan of the removal head
the result is the risk of a relative discrepancy between
part of the ribbon that reaches under the applica
the latter, the width of which must be practically
equal to that of said ribbon; such shifts are detrimental
considerably to the regularity of stratification
obtained, since they result in relative shifts
strips of composite material, which are successively
deposited in juxtaposition on the surface to be recovered, from
composite tape.

The machine according to the present invention is
type originally indicated, and it is arranged so
not to present the inconvenience just mentioned.

It is characterized by the fact that its removal head
is mounted so that it can oscillate on its support
around an axis parallel to the direction (x) and passing through
middle of the right segment joining the two ends
the line of contact of the ribbon with the surface to be coated,
and that means are provided to control the movements
of the head around its axis of oscillation, during the advance
of said head, so that its mediating plane is
always substantially perpendicular to said straight segment ::
Thanks to this provision according to this
invention, the mediating plane of the depositing head occupies
always in space, during the advance of the head during
of a deposition operation of the composite material, a position such as
that the line segment j oigning the two ends of the line of contact of the ribbon with the surface to be coated is always parallel to the tape running plane in the part of the tette located upstream of the application device, and that whatever the relief of the surface to be coated at the level of the application device; this certainly avoids any disruption of the ribbon scroll, and ensures that it reaches the application device without any relative deviation, that is to say in a position such that the application device is able to apply also all the parts of the ribbon which pass by contact with it, without, for example, one of the edges of the ribbon escaping the action of application exerted by this device.

 In a preferred embodiment of the machine according to the present invention, the removal head is coupled to its support by an arcuate guide, for example by an annular slide, centered on the axis parallel to the direction (X). and passing through the middle of said straight segment; On the other hand, the means for controlling the oscillations of the depositing head are dependent on proximity sensors of the surface to be coated, these detectors preferably being placed on either side of the application device of the Grtce ribbons. at this arrangement, whatever the relief of the part of the surface to be coated on which the tape is applied, the edges of the latter always coincide substantially with the corresponding ends of the applica tlon- device.

 Another important disadvantage of the known machine, which has been previously mentioned, lies in the cutting means of the composite tape, which it is provided it is a knife mounted fixed on the depositing head, upstream of the device of application in the direction of travel of said ribbons Of course, each time the ribbon must be cut by this knife in anticipation of the end of the deposition of a layer of composite material, it is necessary to stop the scrolling of the ribbon, and the head can continue its movement of advance and removal of the material, thanks to the gradual resorption of a loop of the ribbon, formed by the passage of the normal eigen-scrolling on at least one deflection member of said ribbon; or the passage of the composite tape on this deflection member tends to detach the composite material from its protective strip at each cutting line t consequently, when it is necessary to deposit an element of the composite material ribbon, short length delimited by two transverse cutting lines, close to one another, such a short element is detached from the ribbon before being deposited, especially when the short element passes at the deflection member of the ribbon.

 According to another characteristic of the present invention, this second serious disadvantage of the earlier machine is avoided by providing means for animating the knife with a speed, with respect to the dispensing head, equal to and in the same direction as the speed of the machine. running the ribbon during each cutting operation of said ribbon.

 This arrangement according to the present invention thus avoids having to scroll the ribbon on a deflection member located in the gap between the knife and the tape application device; in this interval, on the contrary, the ribbon runs, according to the present invention, exactly in one plane, so that a short piece of material, cut by two closely spaced cutting lines, is not likely to detach from the ribbon before to be deposited.

 In a preferred embodiment of the machine according to the present invention, the knife, as well as at least one device for stopping the movement of the ribbon, for example by pinching, which is placed upstream of said knife, are mounted on a first part of the dispensing head, which can oscillate relative to its second part, carrying the ribbon applicator device about an axis perpendicular to the direction of advance of said ribbon; on the other hand, the two parts of the head are connected by an elastic member, which keeps them in a normal position of separation, but which, at each stop of the scrolling of the tape relative to the first part of the te, is compressed by the movement of movement of said second portion, dd traction that the application device exerts on said first portion through the composite tape5 due to the continued advance of the entire head in the direction (X).

According to another advantageous characteristic of the invention, a motor device for winding the protective strip separate from the ribbon, is mounted on the second part of the text of removal, downstream of the application device, so as to exert an auxiliary traction on the first part of the head, by means of the protective band, at each stop of the scrolling of the composite tape
The machine according to the present invention can be advantageously supplied with a composite tape whose two faces are covered by thin protective strips; in this case, according to another advantageous characteristic of the invention, the depositing head, in particular its first part, carries, upstream of the knife, a device for separating composite tape, the protective strip which covers its face opposite to that intended for applied to the surface to be coated, and downstream of this disposltif, a motor device for winding the protective strip thus separated.
This arrangement according to the present invention is particularly advantageous compared to the previously known machine, which has been mentioned several times, and which uses a composite tape of which only one face is covered by a protective strip; it is conceivable that a composite tape whose both sides are covered by protective strips is perfectly protected against all pollution, due for example to handling and deposition of foreign bodies, including falling composite material. Another advantage results from the possibility of grouping the stopping device -
pinch tape and the separator device of the
protective tape in the form of two rollers, between
which pass the composite tape, and whose spacing
can be reduced to pinch said ribbon.

For example, we have described below and
schematically illustrated in the accompanying drawing a form of
embodiment of the machine according to the present invention.

FIG. 1 is a schematic view, in perspec
this embodiment.

Figure 2 is a schematic view of the text
removal of the machine illustrated in Figure 1, in
partial cut by its mediating plan.

Figure 3 is an elevational view of the head
removal in the direction of arrow III of Figure 2.

FIG. 4 is a view on a larger scale, and in partial section / of the part e of FIG. 2 corresponding to the device
application of the composite tape.

FIG. 5 is a partial sectional view, in
the direction of the arrow V of FIG. 4, the composite tape
having been deleted.

Figure 6 is a sue, corresponding to the
FIG. 4, a variant of the device for applying the
composite tape.

Figure 7 is a partial sectional view in
the direction of the arrow VII of FIG.

Figures 8 to 16 are diagrams where
diagrams to illustrate the principle of operation
of the machine according to the present inventionF.

Figure 17 is an enlarged view of the knife
and its anvil, seen in the direction of the arrow P of the
figure 2.

Figure 18 is a view in the direction of the
arrow XVIII of Figure 17: E '
Figure 19 is an elevational view of the tee
depot of Figure 2, illustrating a cutting operation:
Figures 20 and 21 are diagrams for illustrating removal operations requiring successive cutting operations very close together in the temple
Figures 22 to 27 are diagrams illustrating a mode of operation of the machine according to the present invention, corresponding to the application illustrated in Figure 21.

 Figures 28 and 29 illustrate an improvement of the storing of the machine of the present invention.

In the perspective view of FIG. 1, 1 denotes a gantry movable on parallel horizontal rails 2a and 2b according to a well-known arrangement for milling machines, motor means, not shown, being provided for moving the gantry t in the direction of the rails 2a and 2b, above the surface to be reviewed with a composite material of fibers and resin; this surface to be coated is for example a surface of an airplane rudder, and it has been designated by 3e it is generally a surface which is not flat, but which deviates from the horizontal plane according to a function well defined by the two variables 1 and Y. The gantry 1 comprises guiding means and known motor means, to move in the horizontal direction 1 perpendicular to the rails 2a and 2b, a carriage 4 which is secured to a support 5, bearing the taste of actual removal below the gantry 1 * The support 5 is joined to the carriage 4 by a known mechanism of realization, that it is not necessary to describe in detail, and which moves said support 5 in the vertical direction of the Z axis, by means of a motor 6, and to rotate it about said vertical axis Zv using a motor 7.l
As can be seen in FIGS. 1 to 3, the support 5 has a part 5a in the shape of a sector of a circle, its transverse section visible in FIG. 2 having however the shape of an inverted L. The depositing head itself comprises a first part 8a, which is mounted so as to be able to oscillate around an axis OC on a second part, 8b, which is secured to the support 5 in the following manner: as shown in FIG. 2, the lower part , 5a, of the support 5 has an annular slide 5b, whose angle substantially corresponds to that of the circular sector 5a, and whose center will be specified later g in this annular slide 5b is engaged a slide 8b1> integral with the second part, 8b, of the deposition test t known arrangements are made to allow the free movement of the slide 8b1 in the annular slide 5b, with very little or no friction, so that the mediator axis (MM 'in FIG. 3) of the depositing head Sa-8b can be inclined on either side of its vertical position, shown in Figure 3, a given angle, substantially less than half the angle of the circular sector 5at. This "rolling" movement of the head 8a-8b relative to the support 5 is controlled for example by 9t and 9B motors, actuating, for example by means of a pigeon or worm mechanism, a toothed sector 8b2 (Figure 2), carried by the upper end of the portion 8b of the head, the toothed sector 8b2 being itself guided in an annular groove 5c of the support 5 '.

 The composite material to be deposited is delivered to the machine in the form of a tape whose two faces are covered by thin protective strips, this composite tape being introduced into the part 8a of the head in the form of a supply reel 10 , whose axis is coupled, in a manner known per se, with a braking device of the winding motor and unwinding> designated by 10A, set being disposed in the upper zone of the portion 8a of the head. composite, Rbfb2, which is unwound from the supply reel 10, passes between two guide rollers, 11a, 11b, whose spacing is adjustable; when the running of the ribbon must take place normally, the separation of the two rollers 11a and 11b is sufficient not to brake it; on the other hand, under certain conditions, which will be explained later, known means, which need not be described in detail, make it possible to reduce the spacing of the two guide rollers 11a and 11b so that they pinch between them the composite tape and thus abruptly interrupt its scroll.This pair of rollers, and in particular the roll 11b, is also, in their normal spacing position a separation device of the band b1, which covers one of the two faces composite strip Rb1b29 this band b1 itself being wound automatically, during the movement of the composite tape on a coil 12, rotated by a motor device 12Â.

Beyond the pair of rolls 11a, 11bS the ribbon
Rb2, thus stripped of its first protective strip, b1, scrolls in the longitudinal corridor of a device 13, used to control the quality of the composite material that constitutes it. This device, which does not form part of the present invention, does not have to be described in detail.

 On leaving the device 13, the ribbon Rb2 is deflected by m guide roller 14, mounted on an axis 14a 14, exactly perpendicular to the two flanges, 8aA and 8a3, which form the structure of the portion 8a of the dispensing head.

 Beyond the guide and deflection roller 4, the ribbon Rb2 runs along the lower oblique edge 8a1 of the portion 8a of the head, at a distance from this edge, passing firstly at the level of detectors optical ones of its edges, such as 15A, then of such as shears 16, and finally mechanical detectors of its edges, / 17A, which will be described later in more detail, before crossing the gap 18, which is normally maintained between the two parts of the head, 8b and 8a, mounted oscillating relative to 8b about the axis α;, previously mentioned, which is perpendicular to the running direction)), said ribbon Rb2; this gap 18 between the two parts 8a and 8b of the head is maintained at its normal value, during the entire duration of the running of the ribbon, by an elastic member 19, for example a spring enclosed in a telescopic box, articulated itself, 19a and 19b, on the parts 8a and 8b of the head, respectively.

 The ribbon Rb2 then comes into contact with an application device, 20, which is mounted at the lower end of the portion 8b of the head, and several embodiments of which will be described later; this application device serves, as will be explained later in more detail, both to separate the second protective strip b2 of the composite material R, constituting the composite ribbon Rb2, and to apply said composite material in the form of ribbon, R On the surface to be coated, when the support 5 and the head which it carries have been lowered sufficiently below the gantry 1 so that said tape R is applied with a certain pressure on the surface to be coated 3 by the application device 20. The second protective strip, b2, thus separated, is then wound on a coil 21, impeded in rotation by a winding motor device, 21A.

In its embodiment schematically illustrated in FIGS. 4 and 5, the applicator device 20 consists essentially of rigid segments, 20a to 201, which are closely juxtaposed in the transverse direction of the ribbon Rb2, preferably perpendicular to its forward direction X, these rigid segments being mounted so as to be moved in contact with each other in a direction perpendicular to the ribbon Rb2 and the surface to be coated 3.In this embodiment, each of the rigid segments 20a to 201 is mounted at one end of an elastic blade, 22a to 221, recessed at its other end, for example fixed by a bolt, 23a to 231,1 on a suitable part of a housing 24, itself fixed at the lower end of the portion 8b of the depositing head.According to the present invention, the different juxtaposed segments, 20a to 201, are each subjected, in the direction f, firstly to a p Positive deflection, directed towards the ribbon Rb2, and produced from a jack 25a to 25l, arranged in the casing 24, and, on the other hand, to the elastic force of return, of opposite direction, produced by the elastic blade corresponding, for example 22s ;;
On the other hand, the juxtaposed segments, 20a to 201, are controlled by jacks whose axes are offset relative to each other S as visible in FIG. 4, the rod 26a of the jack 25a, which acts on the segment 20a via an articulated transmission, comprising in particular a bent lever 27a and a rod 28a, is oriented in the direction i, said cylinder 25a itself being placed downstream of the application device 20 relative to the direction of movement P ribbon Rb2; the following rigid segment, 2Qbte is controlled by a jack 25b, whose rod extends in the Z direction - at least when the mediating plane, MSX, of the head 8a-8b is vertical, as in FIG. said jack 25b being placed above the application device 20; the rigid segment 20c is controlled by a jack 25c, which is placed upstream of the application device 20, and whose rod 26c / also has the horizontal direction X. This alternating arrangement of the control cylinders of the successive rigid segments is repeated periodically for each of the successive groups of three juxtaposed segments, which allows an optimal arrangement of the control cylinders, resulting in a footprint and a minimum weight of the housing 24 which contains them.

 In the variant of the application device which is illustrated in FIGS. 6 and 7, the juxtaposed rigid segments consist of ball-bearing rollers, 20a to 201, whose internal cages, such as 29a, are slidably mounted in the direction f - on a fixed axis, common, 30, rectangular section; this axis 30 is supported by its ends, such as 30 ', external to the end rollers, 20a and 201' 'in flanges such as 3tA., extending downwardly the housing 24 where are housed the control jacks 25a to 251, and in two flanges, 31'A and 31'B, for fixing the housing 24 and the control device 20 to the lower end of the portion 8b of the head.

It can be seen from FIG. 6 that, for example, the rod 26a of the control cylinder 25a acts, via a crank lever 27a and a roller 28a, so as to apply a positive thrust to the top of the roller 204. directed towards the ribbon Rb2,1 to which the compression of a spring 30a rests, bearing, at one end, at the bottom of a notch arranged in the axis of rectangular section 30, while its second end is applied against the cage lnter.ne 29a of the ball roller 20 to.

 The preceding description of FIGS. 4 to 7 clearly shows that the rigid segments not only apply the part of the composite ribbon Rb2 which comes into contact with their lower parts on the surface to be coated 3 (FIG. 4), or on the layers of composite material. already deposited, as visible in Figure 6, but that they further compaction of the composite material thus deposited by exerting on it a pressure suitably controlled by the corresponding actuating cylinders, 25a to 251.

 The mode of operation of the machine according to the present invention, which has just been described with reference to FIGS. 1 to 7, will now be explained.

The movements of. the head 8a-8b with respect to the surface to be coated 3 in the directions
X, Y and X, as well as its pivoting around the Z axis, can be controlled possibly manually, from a control console (Pu in Figure 1), which can be integral with the gantry 1, However, the machine according to the present invention can advantageously be controlled in a fully automatic manner, particularly in the manner of a numerically controlled machine tool, for example from a computer (not shown), in the memory of which are recorded the various movements that the head and its various accessories must perform to ensure the coating of the surface 5 by several layers juxtaposed and superimposed composite material, so as to In this case, the panel Pa serves only to control the automatic operation of the machine as well as various monitoring and security functions.

 We will consider the case where the machine must deposit strips juxtaposed, for example Mil to r3 in Figure 1j extending in the direction li: 2 for this, it is sufficient that the head 8a-8b is oriented so that its plan mediator MM '(Figure 3) is itself vertical and parallel to the direction X.Sur Figure 2, where the reference 3 designates the surface to be coated, assumed to be plane at least in the plane of the figure, this surface being either es already covered by at least one layer (not shown) of composite material, X has indicated the direction of movement of the head 8a-8b and its support 5, this direction being substantially parallel to the surface 3 and in all case of direction contrary to the direction of travel of the composite ribbon Rb2, indicated by the arrow FO The vertical position of the head 8aw8b and 5 must of course be adjusted so that the portion of the ribbon Rb2 which passes below the application device 20 is applied by the latter on the surface 3, or on layers of composite material already deposited; The traction mode of the application device 20 is substantially the same in its two embodiments, illustrated respectively in Figures 4 and 5 and in Figures 6 and 7; in each case, each of the rigid segments 20a to 201 is pushed down by the corresponding jack, via the linkage asso eidej with a determined force, which overcomes the previously indicated return force; this pressure exerted on the composite ribbon element Rb2 by the different segments of the applicator device 20 has two effects, on the one hand, as the second protective band b2 is moved upwards by its winding spool 2 rotated by the corresponding motor device, there is separation of said protective strip b2 and the ribbon of composite material R, which is applied to the surface 5 with equal pressure by each of the rigid segments 20a to 201; on the other hand, each of the rigid segments 20a to 201 ensures the compaction of the composite material R deposited on the surface 3; either by a spatula effect in the case where each of the rigid segments 20a to 201 is carried by the tertremicity of an elastic blade 22a to 221 (FIGS. 4 and 5), or by a rolling effect, in the case where each segment rigid is materialized by a roller bearing roller (Figures 6 and 7).

The diagrams of FIGS. 8 and 9 further show that the application device 20, formed by juxtaposed rigid segments, 20a to 201, applies the ribbon Rb2 to the surface to be coated in such a way that said ribbon matches its irregularities; these FIGS. 8 and 9 take into consideration the case where the surface 3 has, in its part to be coated from the composite ribbon Rb2, a drop D, situated for example in a vertical plane, oblique with respect to the direction
the ribbon Rb. In FIG.
assumed that the ribbon Rb2 is fixed, and that the device
application 20 occupies, in relation to him, two posi
relative relations identified by those, p1 and P2, of its axis, that is to say, the common axis of the rigid segments 20a to 201, which is transverse to the ribbon Rb2. FIG. 9 shows that, for example for the position p1 of the application device 20, the rigid segments 20a to 20i apply the ribbon Rb2, or at least its composite material X, to the part of the surface 3 which is the most low,
that is, to the left of the slope D, while the last three rigid segments 20j to 20k apply the corresponding, marginal portion of the ribbon Rb2 to that part of the surface 3 which is at the highest level.
high, to the right of the elevation plan D.

Figures 10 and 11, on which we have
adopted the same conventions as in figures 8 and 9, further show how it is possible to take advantage of the faculty of ordering separately the respective levels of the different rigid segments
20a to 201, from the corresponding cylinders, 25a to
251, to perform certain particular operations
removal of ribbon Rb2. It is in this case
deposit a segment of the composite ribbon Rb2, starting with a point P, obtained previously by making
cutting the composite material 'of said ribbon by the shears
16 (Figure 2), oriented to produce a line
oblique cut C, while the ribbon part Rb2
located downstream from point P in relation to the
cut C, should not be deposited on surface 3, but
must be driven by the second protective strip
b2, of which she is not separated. For this purpose, as the
shows the figures, none of the control cylinders 25a to 251 is fed such that the different segments 20a to 201 of the application device 20 remain at a distance above the ribbon Rb2 scrolling.

The removal of the tip P of the ribbon Rb2 begins only when the applicator device 20, or at least its axis, occupies, relative to the ribbon, assumed fixed, the position p1; at this moment, the jack 251 is controlled, so as to lower the corresponding rigid segment, 201, in contact with the ribbon Rb2, and to apply it, with a determined pressure, to the surface 3; as and when the ribbon scrolls below the applicator device 20, the different rigid segments are successively lowered in contact with the ribbon, going from the right to the left of FIG. 11, by the action of the corresponding jacks ; it can be seen, for example, that for the relative position p2 of the application device 20 and of the ribbon Rb2, the part of the tip P to be deposited on the surface 3 is applied thereto by the rigid segments 201 to 20d, whose Descent movements were gradually controlled by the corresponding jacks.

Finally, the removal of the tip P is complete when all the rigid segments 201 to 20a have been lowered so as to apply the composite tape Eb2, over its entire width, against the surface 3, as is the case for the relative position p3 of the application device 20.

 FIGS. 12 to 15 will make it possible to explain one of the essential characteristics of the machine according to the present invention, namely the possibility, for its removal text 8a-8b, of making "roll" movements with respect to the support 5, for an advantageous purpose, which will be specified.

In FIGS. 12 to 14, the head 8a-8b, the circular annular slide 5b, the guide roller 14 of the composite ribbon (see FIG. 2), and the application device are simply shown schematically. 20. In FIG. 12, it has been assumed that the different rigid segments of the application device 20 are all applied to a flat part of the surface to be coated 3 and that the median plane MM 'of the head 8a-8b is vertical and perpendicular to said surface 3, as shown in FIG. 3. With these hypotheses, the composite tape (not shown in FIG. 12), guided by the roller 14, moves in a perfectly even manner below the applicator device 20 that is to say that the two edges, not shown, of this ribbon are exactly below the extreme rigid segments, 20a and 201, of the device 20
In FIG. 13s it has been assumed that the rigid segments 20a-20l of the applicator 20 are applied along a slope line of the surface to be coated 3 which is inclined with respect to the horizontal reference plane XY.In such a case, if the plan mediator
MM 'of the head, 8a-8b, remains vertical the axis of the guide roller 14 remains horizontal, and therefore ceases other parallel to the common axis of the segments 20a to 201 of the device 20 between nes guiding members, 14 and 20 , the composite tape
Rb2 thus has its scroll disrupted due to the lack of parallelism, so that by passing below the device 20, the ribbon edges are shifted transversely with respect to its extreme rigid segments, 20a and 201; of course, because of this shift, not only a marginal portion of the ribbon would escape the action of the application device 20, but in addition, on the other side of the ribbon, there would appear a solution of continuity with the ribbon parallel of the same stratum, previously deposited (in other words, a 'gap' would appear for example between ribbon elements ri and r2, shown in Figure 1).

 According to the present invention, two proximity detectors of the surface to be coated, which have been designated respectively by 32A and 323 in FIGS. 5 and 12 to 14, are attached to part 8b of the head, on either side of the application device 29, which these sensors are also independent.When, for example, in the case illustrated in Figure 13, the distances of the surface to revsstir, 3, which are measured simultaneously by proximity sensors 528 and 32D, are different, a known differential arrangement, which is not necessary to describe in detail, produces a signal of any physical nature, which is transmitted to the central control device of the machine, and converted into a control signal , generally electrical, which is itself transmitted to the motor 9B, controlling a soft rolling oath of the te 8a-8b relative to its support 5, to the left of Figure 13; this rolling movement continues until the differential circuit stops delivering an output signal, that is to say until the distances to the surface, respectively measured by the proximity sensors 32A and 3222 have become equal again.

The rolling motion of the text 8a-8b obviously had the effect of bringing its mediator plane MM 'in an oblique position making an angle ss with the previous vertical position of said mediating plane. Since the guide roller 14 has participated in the rolling movement of the head 8a-8b, and its geometric axis has also rotated by an angle, this axis is now parallel to the inclined line of the surface 3 according to which the different rigid segments of the device 20 are applied; ; there is therefore again parallelism between the axes of the guide roller 14 and the device 20, which avoids any disturbance of the ribbon running and ensures in particular that the two edges thereof continue to pass respectively below the extreme rigid segments 20a and 201, the device 20. Of course, the same result would be obtained through the detectors 32A and 323 if the slope of the surface 3 on which the device 20 is applied was of opposite sense9
In FIG. 14, it has been supposed that the various rigid segments 20a to 201 of the application device 20 were applied to the surface 3 so as to match the relief of the latter along a line with two slopes of opposite directions , In the illustrated example, the rigid segments 20a to 20f are applied against the slope while the rigid segment 20g is applied substantially to the peak C, the other segments, 20h to 201 being applied on the slope # 2 We have designated by B1 and 32 the traces, in the plane of FIG. 14, of the edges of the composite ribbon -Rb2, which is not itself represented, assuming that its edges, 31 and 32, occupy correct positions, below the respective outer portions of the extreme rigid segments, 20a and 201 '. According to the present invention, the action of the proximity sensors of the surface to be coated, 52A and 323, as well as roll control motors (9A and 9B in FIG. 1) is such that the controlled rolling movement stops when the median plane MM 'of the head 8a-8b remains substantially perpendicular to the line segment 3132. This result assumes that the annular slide 5b, in an arc circle, which serves to guide the roll movements of the head 8a-8b, is centered on an axis perpendicular to the plane of Figure 4, that is to say parallel to the direction x advance of the tette, and passing through the middle m of the line segment 3132. Under these conditions, in fact, the line segment 3132 is parallel to the axis of the guide roller 14, which avoids any disruption of the kbp tape scrolling at the device Application 20, as previously explained.
FIG. 15 is a perspective view illustrating the case where the application line of the different rigid segments of the device 20, of which only 20a, 20g and 201 have been represented, has a concave profile, and not a convex profile, as in FIG. 14 , both slopes, and # 2, connecting at a trough V. This figure 15, on which it has been assumed that the proximity switches, ---- 32A and 323, as well as the control motors 9A and 93 roll movements of the head 8a-8b have intervened to regulate the running of said ribbon Rb2, it is clearly seen that the axis 14a of the guide roller 14 has become parallel to the right segment
B1B2 previously defined.

In the previously described embodiment of the depositing machine according to the present invention, additional means are further provided for improving the guidance of the composite ribbon b2 downstream of the application device 20. In particular, as shown in the drawing in FIG. perspective of Figure 16, the roll 146 already mentioned born, for guiding the composite ribbon Rb2, is mounted tilting in a plane perpendicular to the ribbon Rb2, and control means, for example comprising a jack 3> can give to his axis, 14a, in this vertical plane, any inclination of any value between two defined limits, + and -. The control device 33 of the inclination of the axis 14a of the guide roller 14 is itself dependent on, on the one hand, optical detectors 15A and 15B, edges B1 and 32 of the ribbon
Rb2, and secondly, electromechanical detectors, 17A and 73, its edges, 31 and B2.The latter detectors are constituted by elastically mounted cheeks, so that they can each be displaced by one of the edges, 31 and 32, ribbon Rb2, when it tends to deviate from its normal path of scrolling; the mechanical sensor thus moved then actuates an electromechanical contact, inserted in a circuit - not shown of a known type, which can also act on the control device 33 so as to vary the inclination of the axis 14a of the roller of guidance 14 to restore the straightness of the ribbon Rb2'o scrolling These two provisions, or only one of them, allow to correct the disturbances of the scrolling of the composite tape that have various causes and random, such as thickness variations of the second protective band b2, parasitic voltages ...

 etc.

 Figures 17 and 18 show an embodiment of the shear 16 which is provided with the text of removal of the machine according to the present invention '. In this embodiment, the shear 16 comprises an anvil 16a, substantially parallelepipedic, which is fixed at its ends to the two flanges, 8a and 8a3, of the portion 8a of the taste; on the ends of the anvil 16a are fixed coils of electromagnets, 36A and SQB, arranged to attract, when electrically powered, a movable armature I 6b, mounted so as to slide perpendicular to the anvil 16a, with guiding means known, not shown.

The armature 16b carries, on its face turned towards the anvil 16a, a knife blade 16c, the width of which is greater than that of the composite ribbon Rb2, the height of this knife blade being dimensioned so that, when the armature 16b has come into abutment against the electromagnet coils 36A and 36B, said knife blade 16c has completely passed through the composite material R of the ribbon
Rb2, without having notched its second protective strip b2 'Known means, which have not been shown, and it is not necessary to describe in detail, also allow to rotate at least the set of 16b larmature and of the knife blade 16o about an axis A, perpendicular to the anvil 16a, so as to be able to pivot said knife blade 16c on either side of the direction transverse to the ribbon Rb2, and a adjustable angle between two limits, for example between -60 degrees and + 60 degrees.Excess the length of the knife blade I 6c on the width of the ribbon Rb2 is obviously chosen sufficient so that said knife blade can cut the material composite
R from one edge to another 11 of the ribbon, even in the extreme inclination positions of said knife 16c (+ 60 degrees or - 60 degrees for example).
It will be recalled that, when a depositing operation of the composite material on the surface 3 is in progress, the whole of the head 5-8a-8b moves in the x direction and, as soon as the application device 20 ensures the removal and compacting of the portion of the composite ribbon Rb2 which is situated between its various rigid segments and the surface to be revived 3, a traction is exerted on the portion of the ribbon located in the amount of the device 20 this traction has the effect of producing the continuous unwinding of the composite ribbon Rbib2 of the supply reel 10, which, thanks to its braking device, maintains said ribbon under a determined tension, its movement being guided by the pair of rollers 11a-11b , which are normally spaced from each other, and which further ensure the separation of the first protective strip b1, then by the guide roller 14 and the electromechanical guides 17A and 173W '
The spring 19 then holds the two parts and 8b of the head, spaced apart as far as possible from each other, as illustrated in FIG. 2, where the distance which then exists between the knife 16 has been designated L. and the application device 20, this distance being measured in the longitudinal direction of travel of the ribbon Rb2Q;
When the length of the ribbon composite material, R, which has already been deposited since the beginning of the operation, differs only from L, the predetermined length to be deposited, the automatic control device of the machine transmits a signal to the mechanism - not shown - which makes it possible to reduce the spacing of the pair of rollers 11a-11b, so that they stop the movement of the composite tape by pinching. At the same time, a stop signal is transmitted to the winding motor device of the first protective strip, b1, on the coil 120. However, however, the head 8a-8b continues to advance in the X direction so that the device 20 does not stop applying the following sections of the composite tape Rb2 on the surface 3, there is always application, at the end of the composite tape Rb2, which is clamped between the device 20 and the surface 3, a traction of the same direction and meaning as that which previously produced the scrolling of the ribbon in the part 8a of the tette; however, as the portion of the ribbon passing between the rollers 11a and 11b is pinched therebetween, and thereby secured to said head portion 8a, the mentioned pull is transmitted to said portion 8a; through the guide roller 14, and therefore has the effect of bringing said portion 8a of the portion 8b of the teAte, by compressing the spring 19 '. "this results in a progressive reduction of the distance L- between the knife 16 and the application device 20, this distance LI (FIG. 19) decreasing as the spring 19 is compressed and the portion 8a of the head approaches its part by tilting around the axis oE, O It is remarkable that, during this phase of the operation, the composite tape Rb2 is fixed relative to the knife 16, which is itself secured to the part 8a of the head so that the central control device of the machine can, after having controlled a suitable orientation of the blade 16c of the knife 16 (FIGS. 17 and 18), send a feed order of the electromagnets 368 and 36B so that said knife blade 16c cuts from one edge to the other the composite material R, without however hacking the dry protective strip wave b2.As the frame 16b and the knife blade 16c have been brought back to their position away from the anvil 16a, which is represented in FIGS. 17 and 18, by elastic return members, not shown, the control device emits a new order, intended to bring the spacing of the two rollers 11a and 11b back to its normal value, for which the composite ribbon Eb1b2 can scroll normally in the direction of the arrow F, while the head of the removal continues in the X direction, at least until the cutting line formed in the composite ribbon Rb2 by the previous actuation of the knife 16> has reached the level of the application device 20. Of course, as soon as that the composite ribbon Rb1b2 ceased to be pinched between the rollers 11a and 11b, the traction exerted by the applicator device 20 on the ribbon ceased to oppose the restoring force of the spring i> which, relaxing has passed the portion 8a of the depositing, by pivoting about its axis α, the position visible in Figure 19 to that visible in Figure 22.

 it should be noted that during the cutting operation described above, the knife 16 was driven with a speed, relative to the portion 8b of the dispensing head, equal to and in the same sense as the speed of scrolling composite ribbon Rb2. It is remarkable that the composite ribbon Rb? runs in a plane between the knife 16 and the applicator device 20 without passing over any deflection member of its movement, which would tend to detach the composite material from the ribbon Rb2 at the cutting line.

 it should also be noted that, during a cutting operation, the winding motor device of the second protective strip, b2, separated from the composite ribbon, is coupled to the axis of the coil 21, downstream of the device application 20, also exerts an auxiliary pull, via said second protective strip b2, on the pivoting part, 8a, of the dispensing head, this auxiliary traction being added to that which is produced by the application device 20 because of the continued advance of the entire tette in the X direction.

 FIGS. 20 and 21 illustrate depositing operations that require, however, actuations of the knife 16 of the machine according to the present invention, so close that the corresponding oscillations of the part 8a of the teat about its axis with compression then relaxation of the spring line 20 is to deposit, successively and in juxtaposition, two portions r4 and r5 of the composite material from the ribbon Rb2, under conditions such that the neighboring ends, c4 and c5, of the two elements r4 and r5 can be obtained by cutting the composite material ribbon Rb2 along two closely spaced lines, which coincide for example on the edge B1 of said ribbon and form between them a small angle; we see that two successive cuts of this kind must be almost simultaneous, while all went less separated only by the time, to be brief, necessary to modify the angle of the orientation of the knife.

In FIG. 20, it is a matter of juxtaposing on the surface 3, or on the layers of composite material which have already been deposited, three rectangular elements of composite material, r6 to 8, which are obtained by successively in the composite material of the ribbon Rb2strois low-gauge cutting lines e,
The cutting and depositing operation, for example of the rectangular composite material element designated r 6 in FIG. 21, will be described using FIGS. 22 to 27. FIG. 22 illustrates the execution of the section c6 by the knife 16c while the text advances in the X direction and that the application device 20 applies the ribbon-shaped composite material Rb2 to the surface 3e Figure 23 corresponds to the moment when the c6 cut has reached below the application device 20 during the subsequent removal operation. At this moment, the control device causes a stop of the feedrate x and a rise Z of the depositing head above the surface to be coated 5, by the action of the motor 6 (FIG. 1); as soon as the applicator 20 ceases to apply the tape against the surface 3p, the controller has sent a rewinding order to the motor device coupled to the axis of the feed reel 10 (FIG. 2), and at the same time a stop command to the motor winding device of the second protective band, b2, on the coil 21; these two orders had the effect of producing an inversion of the direction of travel F of the composite ribbon Rb2 and of the band b2 separated from the composite material; when, during this reverse scroll, the cut c6 has reached the distance e of the knife 16a-16c (FIG. 24), the control device transmits a new order of actuation to said knife, which has the effect of producing the second line cutting, c7; the control device then reverses the running direction Pt of the composite ribbon Rb2 and the second protective band b2, so as to bring the section e6 back to the level of the applicator device 20, still without contact with the surface to be resurfaced. (Figure 25) .Fending this transfer of the short element, r6, of composite material between the two cutting lines c6 and c7, there is no risk that this element r6 is detached from the protective band b2, since the ribbon Rb2 scrolls in a plane, without being deflected. The control device then triggers an appropriate horizontal movement X ', then a lowering -Z of the dispensing head (FIG. 26) by the actuation of its motor 6, so that the resumption of the movement of the text in the direction X ensures the application on the surface 3, or on the previously deposited composite layer r1, of the element r6.For then the composite material elements r7 and r8 are deposited in juxtaposition (FIG. 21), the control device n ' has more than properly move the head above the surface 3 and repeat the sequence of operations illustrated respectively in Figures 23 to 27 'and previously described.

FIGS. 28 and 29 show that the portion 8b of the depositing head comprises, downstream of the application device 20, and upstream of the coil 21 used for winding the second protective band b2, which has been separated from the composite ribbon, Rb2, at the device 20, a passage 37, which is connected to a suction device - not shown - and that said protective strip, b2, separated, passes longitudinally; in addition, a shovel-shaped collecting member 38 is interposed between the application device 20 and the inlet 37a of the passageway 37 to collect the pieces of composite tape capable of detaching from the protective strip b2.In the form of illustrated embodiment, the shovel-shaped collecting member is supported by at least one lateral arm such as 38a, '- which is mounted oscillating about an axis, #, on one of the flanges of the part 8b of the head as shown in FIG. 2. During a removal operation, when the device 20 applies the composite ribbon Rb2 to the surface to be coated 3, the shovel 38 is held, for example by a return spring, in its erasure position, visible in FIG. 28. When, on the other hand, the test piece 8a-8b is raised for any reason above the surface to be coated, it would be to be feared that the elements of composite material which have not been deposited on surface 3, and which adhere by still further to the second protective strip b2, engaging in the suction passage 37 (this is for example the triangular fall which is defined on the ouirosite ribbon Rb2-of FIG. 20 by the two cutting lines c4 and c5), - --------- possibly
n stood out; the lower face of the second protective strip b2 before having entered the suction passage 37-, and consequently fell on the deposited layers of composite material, the structure of which would thus be disturbed; in this case, a known setting mechanism, not shown, and which is not necessary to describe in detail, brings the shovel 38 into the position shown in FIG. 9, where, being interposed between the application device 20 and the inlet 37a of the suction passage 37, it is able to possibly intercrete the pieces of composite tape which would detach from said protective strip b2; said protective band b2; it is thus ensured that these pieces or falls of composite material arrive at the entrance. from the suction lane 37, where they can other evacuated without difficulty.

 The present invention is not. limited to the embodiment previously described. It encompasses all its variants.

The swivel shovel 38 of Figures 28 and 29 may be replaced by any other equivalent collector member, likely to fade during removal operations. The device for stopping the running of the composite ribbon is capable of various embodiments t distinct from the pair of rollers ila-11b previously described and possibly capable of acting other than by pinching. The machine according to the present invention can also be supplied with a ribbon of composite material of which only one face is covered by a protective strip, in particular that which has been designated b2 in the preceding description. Instead of being coupled with
a braking device of its unwinding, the supply reel 10 can be mounted idly on its axis and a tensioning device, of a known type, can be provided downstream of said supply reel 10.

the knife and its anvil are capable of different embodiments from that which has been described in particular with the help of FIGS. 17 and 18. the means previously described for animating the knife 16, during each cutting operation, with a speed equal to and in the same sense as the speed of travel of the composite tape, which means consist essentially of the components 8a-11a-11b-α -19 may be replaced by means equivalent means, allowing the knife 16 to accompany the scrolling ribbon composite with respect to the fixed part of the head.

the embodiments of the application device 20 which are illustrated in FIGS. 4 to 7, and which have been previously described, are also capable of numerous variants in a general way, it is sufficient that the device for applying the machine according to the present invention comprises a convex surface, deformable from a normal cylindrical shape, this surface extending in a first direction, transverse to the composite tape to be deposited, from one edge to the other of said ribbon, and means Other means for deforming said cylindrical surface at least at its part in contact with the composite tape and for urging the deformed part of said surface and the corresponding part of said tape into contact with the surface to be coated, so that said part of the ribbon marries its relief. the positive control and return means of the different rigid segments of the applicator device or of its deformable convex surface are themselves optional materials. Similarly, the arcuate guiding means of the head 8a-8b relative to its support 5 may differ significantly from the annular slide 8b1-5b which has been previously described.

the means illustrated in FIG. 1 and previously described for moving the dispensing head in one of the directions of the X-Y-Z axes and for rotating it about this latter axis are also optional materials.

The proximity switches 32A, 323 are capable of various embodiments, pneumatic, electromagnetic, ultrasonic ... etc.

Claims (8)

1. Machine for coating a surface (3) of any shape; for example a surface of an overhead vehicle structure, with a composite material of fibers and resin, delivered to the machine in the form of a ribbon (R) of composite material, covered on at least one face by a protective strip thin (bl or b2), machine comprising a depositing head (8a-8b) of the composite material, and a support (1-2a-2b-4-5) adapted to move said head by translation parallel to a reference plane ( X, Y) and along an axis (Z), perpendicular to this plane (X, Y), as well as by pivoting about this axis (z), said test (8a-8b) comprising in particular means for scrolling this composite strip (Rb2), in the opposite direction to the direction of advance (X) of the teat, symmetrically with respect to the mediating plane (MM ') of said teat, so that the composite tape (Rb2) passes to the contacting a device (20) to separate the protective strip (b2) from the ribbon (R) while applying it to the surface to be coated (3) s a line conforming to the relief of said surface (3), a machine characterized in that its removal text (8a-8b) is mounted so as to be able to oscillate on its support (5) about an axis parallel to the direction (X) and passing in the middle (m) of the line segment joining the two ends (B1 and B2) of the line of contact of the ribbon (Rb2) with the surface to be coated (3), and that means (9A, 9B) are provided for controlling movements of the head (8a-8b) about its axis of oscillation, during the advance of said head, so that its mediating plane (MM ') is always substantially perpendicular to said ; right segment (B1, B2).  2. Machine according to claim 1, characterized in that the depositing pin (8a-8b) is coupled with its support (5) by an arcuate guide, for example by an annular slide (5b), centered on the axis parallel to the direction (X) and passing through the middle of said line segment (B1, B2).  3. Machine according to any one of claims 7 and 2, characterized in that the means (9A, 9B) for controlling the oscillations of the drop test (& -8b) are dependent on detectors - (32A, 32B ) of proximity of the surface to be coated, these detectors (32A, 32B) being preferably placed on either side of the application device (20) of the ribbon (Rb2).  4. Machine according to any one of claims 1 to 3, characterized in that the axis (14a) of the guide roller (14) of the composite tape (Rb2), which is placed upstream of the application device (20). ), is tiltable in a plane perpendicular to said ribbon (Rb2), and that means (33) are provided for controlling the inclination of the axis (14a) of said guide roller (14) as a function of signals from the detectors (15A-15B, 1? AI? B) ribbon edges (Rb2), themselves arranged between said guide roller (14) and the application device (20), these detectors (15A-15B, 17A- 17) being of the optical-and / or electromechanical type.  5. Machine according to any one of claims 1 to 4, characterized in that the application device (20) comprises a convex surface, deformable from a normal cylindrical shape, this surface extending in a first direction transverse to the composite ribbon to be deposited (Rb2) from one edge to the other of said ribbon, and that means (25, 26, 27, 28) are provided for deforming said cylindrical surface at least at its portion in contact with the composite ribbon (Rb2), and for pushing the deformed portion of said surface and the corresponding portion of said ribbon (Rb2), in contact with the surface to be coated (3), so that said portion of the ribbon (Rb2) conforms to its relief .  b. Machine according to claim 5, characterized in that the deformable convex surface is materialized by rigid segments (20a-201) closely juxtaposed in the first direction, and mounted so as to be displaced in contact with each other in a second direction, substantially perpendicular to the ribbon (Rb2).  7. Machine according to claim 6, characterized in that the different juxtaposed segments (20a to 201) of the application device (20) are each subjected, in the second direction, on the one hand to a positive thrust, directed towards the ribbon (Rb2) and produced for example by a cylinder (25-26) independent, and, secondly, an elastic force of return, opposite direction.  8. Machine according to claim 7, characterized in that the juxtaposed segments are controlled by jacks (25a to 251) whose rods (26a to 261) are offset relative to each other, three successive segments (22a, 22b and 2 .- 'c) being for example controlled respectively by a rod (25a) rod (26a) direction (X), placed downstream of the application device (20), a cylinder (25b) rod (26b) direction (Z), and a cylinder (25c) with a rod (26c) direction (X), placed upstream of the application device (20).  9. Machine according to any one of claims 6 to 8, characterized in that each rigid segment (20a to 201) is mounted at one end of an elastic blade (2a to * '- "1) embedded in its other end (23a to 231).  10. Machine according to any one of claims 6 to 8, characterized in that the juxtaposed rigid segments (20a to 201) are ball-bearing rollers, whose inner cages (29a to 291), are slidably mounted in the second direction on a fixed axis (30) common, for example rectangular or square section; this axis (30) being supported by its ends (30A, 30B) external to the extreme rollers (20a and 201), and serving as a support for the first ends of compressed return springs (30a to 301), whose second end of each is applied against the inner race (29a to 291) of the bearing of one of the rollers (20a to 201).