FR3070284A1 - TREFILING DEVICE COMPRISING MEANS FOR ORIENTATION OF A TREFILING MEMBER - Google Patents

Abstract

The invention relates to a device (20) for drawing a metal monofilament, the device (20) comprises: - a frame (22); and a receiving housing (24) for a drawing member (26) of the metal monofilament, the drawing member (26) comprising a drawing orifice (12) having a symmetry of revolution about an axis of revolution (A), characterized in that the device (20) comprises means for orienting the axis of revolution (A) relative to the frame (22).

Description

Wire drawing device comprising means for orienting a wire drawing member

The invention relates to a wire drawing device for a metallic monofilament for tires.

In the field of tires, metal monofilaments are used to reinforce a crown and / or tire carcass reinforcement. Such reinforcements comprise at least one ply comprising an elastomer matrix in which are embedded several metal monofilaments arranged one beside the other and parallel to each other. Each metallic monofilament is cylindrical in shape around an axis of the metallic monofilament and has a substantially constant diameter.

In order to manufacture such a sheet, for example by calendering the metal monofilaments between two strips of the elastomer matrix, it is preferable that each monofilament has a hanger as small as possible, or even a zero hanger. The hanger of a predetermined length of metallic monofilament is the height of the arc between the two ends of a given length of metallic monofilament. Indeed, the presence of a too high hanger can make the calendering step impossible, and when possible, can lead to plies having flatness defects, for example a winding or rewinding of the edges of the ply, rendering the latter unusable during the subsequent stages of butt-jointing and / or assembling the plies together.

In order to manufacture the metallic monofilament, the metallic monofilament is drawn. During this drawing, it is known that the metal monofilament undergoes one or more uninterrupted series of drawing steps, during which the metal monofilament passes through a series of drawing devices each comprising a drawing member, generally called a die, in order to reduce its diameter. Within each wire drawing device, the wire drawing member is mounted to move freely against a downstream support of the wire drawing device so as to be pressed against this downstream support under the effect of the movement of the metallic monofilament through the member himself.

Each drawing or die member comprises a frame 10 carrying a core 11 as illustrated in FIG. 1.

-2The core 11 comprises a drawing orifice 12 presenting a symmetry of revolution around an axis of revolution, noted A. In the direction of travel of the metallic monofilament 14 illustrated by the arrows noted F, the core 11 successively comprises in this order : a CE inlet cone with a decreasing diameter in the direction of travel of the metal monofilament and allowing rough guidance and good lubrication of the metal monofilament inwardly and in the wire drawing orifice, a CT working cone having a diameter decreasing in the direction of travel of the metallic monofilament and allowing the reduction of the diameter of the metallic monofilament 14 by work hardening, optionally a cylindrical bearing having a constant diameter allowing to ensure the homogeneity of the diameter of the metallic monofilament obtained at the outlet of the cone of work and finally a CS output cone presenting a dia increasing meter in the direction of travel of the metallic monofilament. The outlet diameter of the working cone CT is substantially equal to the diameter of the cylindrical seat and defines the diameter of the metal monofilament 14 at the outlet of the wire drawing member.

The diameter of the cylindrical seat of each wire drawing member is less than the exit diameter of the cylindrical seat of the wire drawing member located upstream in the direction of travel of the metal monofilament. Means for pulling the metal monofilament positioned downstream of each wire drawing device make it possible to exert a sufficient pulling force to pull the metal monofilament through each wire drawing device and to press each wire drawing member against the downstream support of each wire drawing device. corresponding wire drawing.

In theory, when the axis of the metallic monofilament, denoted B, is merged with the axis of revolution A of the core, the work hardening stresses are equal over the entire circumference of the metallic monofilament which then has a zero arch.

On the one hand, in reality, in a plane comprising the axis of revolution A and the axis B of the metallic monofilament 14, it is observed that the axis B of the monofilament always forms a non-zero angle a with the axis of revolution A, as shown in FIG. 2. The greater this angle a, the more the stresses of work hardening are inhomogeneous on the circumference of the metallic monofilament. This inhomogeneity leads to the appearance of an unwanted hanger for the reasons mentioned above.

On the other hand, in reality, the axis B of the metallic monofilament is always offset with respect to the axis of revolution A, as shown in FIG. 3. By offset, it is meant that, in an entry plane P-P 'of the working cone CT substantially perpendicular to the axis of revolution A, the distance between:

the intersection of the axis of revolution A and the entry plane P-P ', and the intersection of the running axis B of the metal monofilament through the device and the entry plane P-P', is not zero. The greater this distance, the more inhomogeneous the strain hardening stresses on the circumference of the metallic monofilament. This inhomogeneity leads to the appearance of an unwanted hanger, always for the reasons mentioned above.

The wire drawing process of a metal monofilament is generally interrupted several times due, for example, to breaks in the metal monofilament occurring during wire drawing, the need to change one or more worn cores or else when changing operators. At each interruption, each wire drawing member is no longer pressed against the downstream support due to the absence of scrolling of the metal monofilament so that when resuming drawing, each drawing member takes up a position different from the position that he had before the interruption.

Thus, because of the different positions taken by each wire drawing member, a metallic monofilament is obtained having a variable hanger along the metallic monofilament, certain portions of the metallic monofilament being able to exhibit a relatively weak and therefore acceptable hanger whereas other portions of the metallic monofilament can have a very high hanger and therefore unacceptable. The variability of the hanger along the metallic monofilament creates uncertainty about the conformity of the metallic monofilament with the hanger criterion.

The object of the invention is to provide a wire drawing device making it possible to obtain a constant, or even zero, hanger along the metal monofilament.

To this end, the subject of the present invention is a wire drawing device for a metallic monofilament, comprising:

a frame, and a housing for receiving a wire drawing member of the metal monofilament, the wire drawing member comprising a drawing orifice having a symmetry of revolution around an axis of revolution,

-4characterized in that the device comprises means for orienting the axis of revolution relative to the frame.

Thus, such a drawing device makes it possible to reduce the angle between the axis of revolution of the die and the axis of the metallic monofilament by means of orientation of the axis of revolution relative to the frame, thus making it possible to maintain constant , or even greatly reduce the possible bend of the metallic monofilament at the outlet of the die.

The wire drawing device according to the invention can also include one or more of the characteristics below, considered individually or according to all technically possible combinations:

- The orientation means comprise a ball joint having a spherical bearing surface, the ball joint being integral in movement with the drawing member relative to the frame;

the device comprises means for blocking means for orienting the axis of revolution relative to the frame;

the means for blocking the orientation means can be engaged between:

• an engaged position in which the orientation of the axis of revolution is blocked relative to the frame, • a disengaged position in which the orientation of the axis of revolution is free relative to the frame;

- The device comprises means for locking the locking means in the engaged position;

- The orientation means comprise a ball joint having at least one spherical bearing surface, the ball joint being integral in movement with the drawing member relative to the frame, the means for blocking the orientation means comprise means of clamping of the orientation ball joint arranged on either side of the equatorial plane of the ball joint;

the clamping means comprise first and second members carrying respectively first and second spherical clamping surfaces capable of cooperating with first and second spherical bearing surfaces of the ball joint respectively, the first and second spherical bearing surfaces being located on either side of the equatorial plane of the patella;

the orientation means comprise a ball joint integral with the movement of the wire drawing member relative to the frame and the device comprises means for adjusting the orientation means comprising at least three screws, each screw comprising:

• a first axial bearing surface capable of cooperating with a first complementary bearing surface carried by the ball or a member integral in movement with the ball, and • a second axial bearing surface capable of cooperating with a second surface d 'additional support carried by the frame or a fixedly fixed member of the frame;

- each screw is a pressure screw comprising:

• a net carrying the first axial support surface, and • a tip carrying the second axial support surface;

- The device comprises an upstream support delimiting axially at least a part of the housing for receiving the drawing member, and a downstream support delimiting axially at least a part of the housing for receiving the drawing member, at least one upstream and downstream supports being integral in movement with the ball and carrying the first complementary bearing surface;

- The device comprises means for blocking the means for orienting the axis of revolution relative to the frame comprising means for clamping the orientation ball arranged on either side of the equatorial plane of the ball and comprising first and second members carrying respectively first and second spherical clamping surfaces able to cooperate with respectively first and second spherical bearing surfaces of the ball joint, the first and second spherical bearing surfaces being located on either side other of the equatorial plane of the ball, and at least one of the first and second members carrying respectively first and second spherical clamping surfaces being fixedly secured to the frame and carrying the second complementary bearing surface;

- The device comprises means for blocking a radial movement of the wire drawing member relative to the frame in the receiving housing;

the means for blocking a radial movement of the drawing member with respect to the frame can be engaged between:

• an engaged position in which the wire drawing member is radially blocked relative to the frame, • a disengaged position in which the wire drawing member is radially movable relative to the frame;

the blocking means comprise means for blocking an axial movement of the drawing member relative to the frame in the receiving housing;

the means for blocking an axial movement of the drawing member with respect to the frame can be engaged between:

• an engaged position in which the wire drawing member is axially locked relative to the frame, • a disengaged position in which the wire drawing member is axially movable relative to the frame.

Another object of the invention relates to an installation for drawing a metallic monofilament comprising, in the direction of travel of the metallic monofilament, a series of at least two drawing devices arranged so as to reduce the diameter of the metallic monofilament between the device wire drawing most upstream of the series in the direction of travel of the metal monofilament and the wire drawing device most downstream of the series in the direction of travel of the metal monofilament, characterized in that at least one of the wire drawing devices is according to the invention.

The installation according to the invention can also include one or more of the characteristics below, considered individually or in all technically possible combinations:

- the most downstream drawing device in the series in the direction of travel of the metallic monofilament comprises a member for drawing the metallic monofilament to a final diameter d, the installation comprising a storage coil for storing the metallic monofilament of final diameter d arranged downstream of the most downstream drawing device of the series in the direction of travel of the metal monofilament, and in which the most downstream drawing device of the series is according to the invention;

- The final diameter d is between 0.10 mm and 0.50 mm, preferably between 0.25 mm and 0.45 mm and more preferably between 0.28 and 0.42 mm;

- the installation includes in the direction of travel of the metallic monofilament:

• a first series of at least two wire drawing devices of the metal monofilament from an initial diameter D to an intermediate diameter di, • a device for heat treatment of the metal monofilament of intermediate diameter di, • a second series of at least two wire drawing devices of the metallic monofilament from the intermediate diameter di to a final diameter d;

- The intermediate diameter di is greater than or equal to 0.5 mm, preferably 1 mm;

- The intermediate diameter di is less than or equal to 2.5 mm, preferably 2.2 mm and more preferably 2 mm.

Yet another object of the invention is a process for drawing a metallic monofilament comprising, in the direction of travel of the metallic monofilament a series of at least two drawing steps so as to reduce the diameter of the metallic monofilament between the the most upstream wire drawing step of the series in the direction of travel of the metal monofilament and the most downstream wire drawing step of the series in the direction of travel of the metal monofilament, characterized in that at least one of the steps drawing is carried out by means of a device as defined above.

The method according to the invention can also include one or more of the characteristics below, considered individually or according to all technically possible combinations:

the most downstream wire drawing step of the series in the direction of travel of the metal monofilament being implemented by means of a wire drawing member of the metal monofilament to a final diameter d, the method comprises a step of storing the metal monofilament of final diameter d downstream of the most downstream wire drawing step of the series in the direction of travel of the metal monofilament, and in which the most downstream wire drawing step of the series is implemented at means of a device as defined above;

the final diameter d ranges from 0.10 mm to 0.50 mm, preferably from 0.25 mm to 0.45 mm and more preferably from 0.28 to 0.42 mm;

the method comprises, in the direction of travel of the metallic monofilament: a first series of at least two steps of drawing the metallic monofilament from an initial diameter D to an intermediate diameter di, a step of heat treatment of the metallic monofilament of intermediate diameter di and a second series of at least two steps of drawing the metallic monofilament from the intermediate diameter di to a final diameter d;

- The intermediate diameter di is greater than or equal to 0.5 mm, preferably 1 mm;

- The intermediate diameter di is less than or equal to 2.5 mm, preferably 2.2 mm and more preferably 2 mm.

Other characteristics and advantages of the invention will appear on reading the detailed description of the embodiments given by way of nonlimiting examples and illustrated, accompanied by the following figures:

- Figure 1 is a schematic sectional view of the frame and the core of a drawing member;

- Figure 2 is a diagram illustrating the radial and angular offsets between the axis of revolution of the core and the axis of the metallic monofilament to be drawn in plane transverse to the plane P-P 'of entry into the working cone of the core of the drawing member of Figure 1;

- Figure 3 is a diagram illustrating the radial offset between the axis of revolution of the core of the wire drawing member of Figure 1 and the axis of the metal monofilament to be drawn in the plane P-P 'of entry into the core working cone of Figure 1;

- Figure 4 is a schematic three-dimensional view of a wire drawing device according to an embodiment of the invention;

- Figure 5 is a schematic sectional view of the wire drawing device of Figure 4;

- Figure 6 is an enlarged view of part of Figure 5;

- Figure 7 is another schematic sectional view of the wire drawing device of Figure 4; and

- Figure 8 is a schematic view of a wire drawing installation of a metal monofilament according to one embodiment and comprising at least one wire drawing device according to the invention.

In the figures, similar elements are designated by identical references. In addition, the different elements are not necessarily shown to scale in order to present a view making it easier to understand the invention.

In the following description, the terms "upstream" and "downstream" used always refer to the direction of travel of the metallic monofilament as indicated by the arrows noted F in the figures.

By convention, the "radial" orientation is directed orthogonally to the axis of revolution of the die denoted A and defining the "axial" orientation.

Referring to Figures 4 to 7, the invention relates to a wire drawing device 20 of a metal monofilament (not shown) comprising a frame 22 and a housing 24 for receiving a wire drawing member 26 of a metal monofilament. The wire drawing member 26 or die comprises a core and a frame 10 carrying the core 11 as described above with reference to FIG. 1. Thus, the core 11 in particular comprises a drawing orifice 12 having a symmetry of revolution around an axis of revolution noted A.

The device 20 includes orientation means 30 of the axis of revolution A.

Preferably, the device 20 advantageously comprises means for blocking the orientation means 30 of the axis of revolution A relative to the frame 22. For example, the orientation means 30 can be engaged between an engaged position and a disengaged position . The engaged position is defined by the position in which the orientation of the axis of revolution A is locked relative to the frame 22, while in the disengaged position, the orientation of the axis of revolution A is free relative to the frame 22.

Advantageously, the device 20 may include means for locking the locking means in the engaged position.

According to a preferred embodiment, the orientation means 30 advantageously comprise a ball joint 40 comprising a recess

-10cylindrique 41 extending along the axis of revolution A of the drawing orifice 12 and radially delimiting the receiving housing 24 of the drawing member 26. The ball 40 also has a bearing surface 42 on the frame 22 at least partially spherical. By “at least partially spherical bearing surface” is meant that the bearing surface 42 is preferably spherical or, preferably spherical and partially truncated as illustrated in FIGS. 5 and 6. In other words, when the bearing surface 42 is truncated along a plane transverse to the axis of revolution A, for example at each end as illustrated in FIGS. 5 and 6, the bearing surface 42, at least on the portion s' pressing on the frame 22 and extending from the transverse cutting plane 43 or between the transverse cutting planes 43 is spherical.

Thus, during assembly, the wire drawing member 26 is inserted into the cylindrical recess 41 of the ball joint 40 to the receiving housing 24. In addition, the orientation of the wire drawing member 26 is adjusted by means of the ball 40 of the orientation means 30. Once adjusted, the orientation of the wire drawing member 26 is blocked by the locking means in an engaged position and locked in this position by the locking means in order to guarantee orientation fixed during wire drawing of the metallic monofilament.

According to this embodiment, the means for blocking the orientation means 30 can advantageously comprise means for clamping 50 of the orientation ball 40 arranged on either side of the equatorial plane of the ball 40. The equatorial plane of the patella is by definition the plane passing through the largest external diameter of the patella 40. The equatorial plane of the patella is transverse to the axis of revolution A according to the embodiment illustrated in FIGS. 4 to 7.

Preferably, the clamping means 50 comprise first and second clamping members 52, 54 respectively carrying first and second clamping surfaces 56, 58 facing the ball 40. The first and second clamping members 52 , 54 are configured to enclose the ball joint 40. The first and second clamping members 52, 54 each comprise a plate extending longitudinally along a plane transverse to the axis of revolution A. Each plate of the clamping members 52, 54 includes an upstream face and a downstream face opposite the upstream face connected respectively by the first clamping surface 56 for the first clamping member 52 and the second clamping surface 58 for the second clamping member 54. Good

-11 understood, the upstream and downstream faces of the plates of the clamping members 52, 54 extend transversely to the axis of revolution A.

The first clamping surface 56 of the first member 52 has a shape complementary to at least part of a first bearing surface 62 of the ball 40. The first bearing surface 62 is defined by the portion of the surface d 'support 42 of the ball joint 40 located on one side of the equatorial plane of the ball joint 40. Similarly, a second bearing surface 64 of the ball joint 40 is defined by the portion of the bearing surface 42 of the ball joint 40 located on the other side of the equatorial plane of the ball 40. The second clamping surface 58 of the second member 54 also has a shape complementary to at least part of the second bearing surface 64 of the ball 40.

The first and second clamping surfaces 56, 58 and the first and second bearing surfaces 62, 64 are at least partially spherical, that is to say that they are spherical or spherical but partially truncated.

Thus, the first and second clamping surfaces 56, 58 are configured and able to cooperate with the first and second bearing surfaces 62, 64 respectively of the ball 40.

In order to enclose the ball joint 40 between the first and second clamping members 52, 54, the clamping means 50 comprise means for axially compressing the ball joint 40 between the first and second clamping members 52, 54. The axial compression means 140 preferably comprise at least three screws 142, preferably regularly angularly spaced and configured to axially secure the first and second clamping members 52, 54 and effectively grip the ball 40.

With reference to FIG. 6, each screw 142 comprises a first axial bearing surface 144 and a second axial bearing surface 145. The first axial bearing surface 144 is able to cooperate with a first complementary bearing surface 146 carried by the second clamping member 54. The second axial bearing surface 145 is able to cooperate with a second complementary bearing surface 147 carried by the first clamping member 52.

Preferably and as illustrated in FIG. 6, each adjustment screw 142 is a pressure screw comprising a thread carrying the first axial support surface 144, and a shoulder carrying the second axial support surface 145.

Thus, thanks to the clamping means 50, the ball 40 is integral in movement with the drawing member 26 relative to the frame 22.

In addition, the device 20 comprises an upstream support 72 and a downstream support 74. The upstream support 72 axially delimits at least part of the receiving housing 24 of the drawing member 26 while the downstream support 74 axially delimits at least part of the receiving housing 24 of the drawing member. To this end, the upstream support 72 preferably comprises a plate 76, said upstream plate, extending transversely to the axis of revolution A and a cylindrical section 77, said upstream cylindrical section, extending from the upstream plate 76 towards the downstream support 74. Likewise, the downstream support 74 preferably comprises a plate 78, called the downstream plate, extending transversely to the axis of revolution A and a cylindrical section 79, called the downstream cylindrical section, extending from the downstream plate 78 in the direction of the upstream support 72. The upstream 77 and downstream 79 cylindrical sections are shaped to accommodate in the cylindrical recess 41 of the ball joint 40 on either side of the drawing member 26. The housing 24 for the drawing member 26 is thus axially delimited downstream by the cylindrical section 79 of the downstream support 74, upstream by the cylindrical section 77 of the upstream support 72, and radially by the walls of the '' Cylindrical recess 41 of the ball joint 40. The upstream 77 and downstream 79 cylindrical sections each comprise a through orifice for the passage of the metallic monofilament and having a symmetry of revolution around the axis of revolution A.

In addition, at least one of the upstream support 72 and the downstream support 74 is integral in movement with the ball joint 40. For example, in the embodiment illustrated in FIGS. 4 to 6, the upstream support 72 is integral in movement of the ball 40 by means of securing. These securing means comprise at least one screw 80 and preferably three screws 80 regularly spaced angularly from each other, as illustrated in FIGS. 4 to 6. In addition, the downstream support 74 can advantageously also be integral in movement with the ball joint 40 by other means of securing which will be described later.

According to the embodiment illustrated in Figures 4 to 7, the first and second clamping members 52, 54 are arranged between the plates 76, 78 of the upstream 72 and downstream 74 supports, the second clamping member 54 being arranged between the first clamping member 52 and the downstream plate 78.

Advantageously, the device 20 further comprises adjustment means 90 of the orientation means 30. The adjustment means 90 preferably comprise at least three so-called adjustment screws 92. With reference to FIG. 7, each

Adjustment screw 92 comprises a first axial bearing surface 94 and a second axial bearing surface 95. The first axial bearing surface 94 is able to cooperate with a first complementary bearing surface 96 carried by the ball 40 or a member integral in movement with the ball 40. The second axial bearing surface 95 is capable of cooperating with a second complementary bearing surface 97 carried by the frame 22 or a member fixedly attached to the frame 22.

Preferably and as illustrated in FIG. 7, each adjusting screw 92 is a pressure screw comprising a thread carrying the first axial bearing surface 94, and a tip carrying the second axial bearing surface 95. Furthermore, in the embodiment illustrated, the first complementary bearing surface 96 is carried by a member integral in movement with the ball 40 while the second complementary axial bearing surface 97 is carried by the first clamping member 52 fixedly attached to the frame 22.

In addition, at least one of the upstream support 72 and the downstream support 74 is integral in movement with the ball joint 40 and carries the first complementary bearing surface 96, for example the upstream support 72 in the embodiment illustrated in the Figures 4 to 7.

Advantageously, at least one of the first and second members 52, 54 carrying the first and second gripping surfaces 56, 58 respectively is fixedly secured to the frame 22 and carries the second complementary bearing surface 97. In the illustrated embodiment, the second complementary bearing surface 97 is carried by the first clamping member 52 and the first clamping member 52 is fixedly secured to the frame 22 as described above.

In addition, the device 20 may advantageously include means for blocking a movement of the drawing member 26 relative to the frame 22 in the receiving housing 24. In particular, these blocking means advantageously include radial blocking means configured to block a radial movement of the drawing member 26 relative to the frame 22 in the receiving housing 24.

The means for radially blocking the radial movement of the drawing member 26 relative to the frame 22 can be engaged between a so-called engaged position and a so-called disengaged position.

The engaged position is defined by the position in which the drawing member 26 is radially locked relative to the frame 22 while in the position

-14 disengaged, the drawing member 26 is by definition radially movable relative to the frame 22.

Advantageously, the blocking means further comprise axial blocking means configured to block an axial movement of the drawing member 26 relative to the frame 22 in the receiving housing 24, that is to say between the cylindrical sections 77, 79 of the upstream 72 and downstream 74 supports.

The means for axially blocking the axial movement of the drawing member 26 relative to the frame 22 can be engaged between a so-called engaged position and a so-called disengaged position.

The engaged position is defined by the position in which the wire drawing member 26 is axially locked relative to the frame 22 while in the disengaged position, the wire drawing member 26 is by definition axially movable relative to the frame 22.

Such means for blocking a radial and / or axial movement of the drawing member 26 in the receiving housing 24 make it possible to limit, while reducing them, any movements of the drawing member 26 in the receiving housing 24 Thus, in the entry plane P-P 'of the working cone CT substantially perpendicular to the axis of revolution A and illustrated in FIG. 3, the distance between the intersection of the axis of revolution A and the plane input P-P ', and the intersection of the running axis, noted B, of the metallic monofilament through the device and the input plane P-P', is significantly reduced thanks to the movement blocking means of the wire drawing member according to the invention. By minimizing this distance, at least by keeping this distance constant, the work hardening stresses are made substantially uniform over the circumference of the metal monofilament. This homogeneity allows to maintain a constant and weak hanger.

Preferably, the axial locking means comprise upstream axial support means 106 and downstream axial support means 107 of the drawing member 26.

The upstream axial support means 106 of the wire drawing member 26 are arranged so as to prevent axial movement of the wire drawing member 26 relative to the frame 22 in the direction opposite to the running direction of the metal monofilament. The direction of travel of the metallic monofilament is illustrated by the arrows F in FIGS. 4 to 7.

Advantageously, the upstream axial support means 106 comprise the upstream support 72 axially delimiting at least part of the housing 24 for receiving the wire drawing member 26. In particular, the cylindrical section

Upstream 77 of the upstream support 72 comprises an upstream axial blocking surface 108 axially delimiting the receiving housing 24. The upstream axial blocking surface 108 is substantially perpendicular to the direction of travel denoted F and able to cooperate with a complementary bearing surface 118 of the drawing member 26.

The downstream axial support means 107 of the wire drawing member 26 are arranged so as to prevent axial movement of the wire drawing member 26 relative to the frame 22 in the running direction F of the metal monofilament.

Advantageously, the downstream axial support means 107 comprise the downstream support 74 axially delimiting at least a portion of the receiving housing 24 of the drawing member 26. In particular, the downstream cylindrical section 79 of the downstream support 74 comprises a surface of downstream axial locking 109 axially delimiting the housing 24. The downstream axial locking surface 109 is substantially perpendicular to the direction of travel F of the metal monofilament and capable of cooperating with another complementary bearing surface 119 of the drawing member 26.

In addition and with reference to FIGS. 5 and 6, the blocking means, and in particular the axial blocking means, advantageously comprise means of axial clamping 120 of the drawing member 26 between the upstream support 72 and the downstream support 74 .

Preferably, the axial clamping means 120 comprise axial elastic return means 122 arranged so as to exert an axial clamping force on at least one of the upstream 72 or downstream 74 supports in the direction of the drawing member 26. In the embodiment illustrated in FIGS. 4 to 7, the axial elastic return means 122 are arranged so as to exert an axial clamping force on the downstream support 74 in the direction of the drawing member 26.

In addition, the axial clamping means 120 may advantageously comprise means for axial compression 124 of the axial elastic return means 122. These means of axial compression 124 of the axial elastic return means 122 comprise a first surface axial support 126 and a second axial support surface 128 The first axial support surface 126 is carried by at least one of the upstream 72 or downstream 74 supports, preferably by the downstream support 74 and as illustrated on the FIGS. 4 to 7. The second axial bearing surface 128 is carried by the frame 22 or a member axially integral with the frame 22.

For example and preferably, the integral member is a screw 130 axially integral with the ball joint 40 which is axially integral with the frame 22. In this case, the

-16second axial support surface 128 is carried by a shoulder 132 of the screw 130. Preferably, two screws 130 make it possible to axially secure the ball joint 40 and the downstream support 74.

Advantageously, each screw 130 comprises a fixing portion 134 and a sliding portion 136. The fixing portion 134 comprises a thread capable of cooperating with a complementary thread of the frame 22 or of the member axially integral with the frame, here the ball 40 The sliding portion 136 of the screw 130 is delimited axially by the first and second axial bearing surfaces 108, 109.

According to one embodiment, the axial elastic return means 122 comprise a spring 138 arranged axially between the first and second axial support surfaces 108, 109 around the sliding portion 136 of the screw 130.

In addition, the locking means advantageously comprise means 150 for moving the axial clamping means 120 between an engaged position and a disengaged position.

The engaged position is defined by the position in which the wire drawing member is radially and axially locked between the upstream and downstream supports while in the disengaged position, the wire drawing member is radially and axially movable between the upstream and downstream supports.

Preferably, the displacement means 150 comprise a cam 152 for displacement of the axial clamping means 120 between the engaged position and the disengaged position. The cam 152 is carried by a shaft and mounted movable in rotation about an axis of rotation denoted X.

The displacement means 150 further comprise a counter 154 capable of cooperating with the cam 152 between the engaged position and the disengaged position and an actuating lever 156 for the rotation of the cam 152 around its axis of rotation X thanks to the 'tree. The cam follower 154 is advantageously carried by at least one of the upstream 72 or downstream 74 supports and, preferably, by the downstream support 74 as illustrated in FIG. 5.

For example, the cam 152 is of the shoe type, that is to say with a rounded profile, and thus allows a radial transmission relative to the axis of rotation X.

With reference to FIG. 8, the invention also relates to a wire drawing installation 200 of a metal monofilament 14 comprising, in the direction of travel of the metal monofilament at least one series 240 of at least two wire drawing devices 240-j arranged so as to reduce the diameter of the

-17 metallic monofilament between the wire drawing device 240-1 the most upstream of the series 240 in the direction of travel of the metal monofilament and the wire drawing device 240-m the most downstream of the series in the direction of travel, noted F , metallic monofilament. According to the invention, at least one of the wire drawing devices 240-m is a wire drawing device 20 according to the invention and as described above. m denotes the number of wire drawing devices in the 240 series.

Preferably, the most downstream wire drawing device 240-m of the series in the direction of travel of the metal monofilament comprises a wire drawing member of the metal monofilament towards a final diameter d and is a wire drawing device 20 according to the invention and as described above.

In addition, the installation 200 includes a storage coil 220 for the metal monofilament of final diameter d arranged downstream of the wire drawing device 240-m furthest down from the series 240 in the direction of travel of the metal monofilament.

According to a preferred embodiment, the final diameter d of the metallic monofilament is between 0.10 mm and 0.50 mm, preferably between 0.25 mm and 0.45 mm and more preferably between 0.28 and 0.42 mm.

Advantageously and as illustrated in FIG. 8, the installation 200 according to the invention further comprises, in the direction of travel of the metallic monofilament, before the 240 series of at least two wire drawing devices 240-j, a device heat treatment unit 230 and a series 210 of at least two wire drawing devices 210-i arranged upstream of the heat treatment device 230 ..

The first series 210 of at least two wire drawing devices 210-i of the metal monofilament is configured to reduce the initial diameter D of the metal monofilament towards an intermediate diameter di while the second series 240 of at least two wire drawing devices 240- j of the metallic monofilament is configured to reduce the intermediate diameter di of the metallic monofilament towards the final diameter d.

The heat treatment device 230 arranged between the first and second series 210, 240 of at least two wire drawing devices 210-i, 240-j is a device for heat treatment of the metallic monofilament of intermediate diameter di. Examples of thermal treatment device 230 and its implementation method are notably described in WO2015 / 124654.

According to a preferred embodiment, the intermediate diameter di is greater than or equal to 0.5 mm, preferably 1 mm. In addition, the diameter

-18intermediate di is less than or equal to 2.5 mm, preferably 2.2 mm and more preferably 2 mm.

The wire drawing method according to the invention comprises, in the direction of travel F of the metal monofilament 14, a series of at least two wire drawing steps so as to reduce the diameter of the metal monofilament 14 between the most wire drawing step upstream of the series in the direction of travel of the metal monofilament 14 and the most downstream wire drawing step of the series in the direction of travel of the metal monofilament 14. According to the invention, at least one of the wire drawing steps is implemented by means of a device 20 described above. The most downstream wire drawing step of the series in the direction of travel F of the metal monofilament 14 being implemented by means of a wire drawing member of the metal monofilament to a final diameter d, the method comprises a storage step of the metallic monofilament of final diameter d downstream of the most downstream drawing step of the series in the direction of travel F of the metallic monofilament 14, for example by means of the storage reel 220, and in which the step the most downstream drawing of the series is implemented by means of the device 20 described above.

The process described comprises, in the direction of travel F of the metallic monofilament 14:

a first series of at least two steps of drawing the metallic monofilament from an initial diameter D to an intermediate diameter di implemented using the devices 210-i,

a step of heat treatment of the metallic monofilament of intermediate diameter di implemented using the device 230,

- a second series of at least two steps of drawing the metal monofilament from the intermediate diameter di to a final diameter of implementation thanks to the devices 240-i.

During this process, the final diameter d ranges from 0.10 mm to 0.50 mm, preferably from 0.25 mm to 0.45 mm and more preferably from 0.28 to 0.42 mm. The intermediate diameter di is greater than or equal to 0.5 mm, preferably 1 mm. The intermediate diameter di is also less than or equal to 2.5 mm, preferably 2.2 mm and more preferably 2 mm.

Examples of the drawing process are described in particular in WO2014 / 037161.

The drawing device according to the invention, the drawing installation and the method according to the invention as described above thus make it possible to obtain a constant, or even zero, hanger along the metal monofilament.

Of course, other applications of the assembly according to the invention are also possible without departing from the scope of the invention.

Claims (25)

1. A device (20) for drawing a metallic monofilament, the device (20) comprises: - a frame (22); and a housing for receiving (24) a wire drawing member (26) of the metal monofilament, the wire drawing member (26) comprising a drawing orifice (12) having a symmetry of revolution about an axis of revolution ( A), characterized in that the device (20) comprises means for orienting the axis of revolution (A) relative to the frame (22). 2. Device according to the preceding claim, wherein the orientation means (30) comprise a ball joint (40) having a spherical bearing surface (42), the ball joint (40) being integral in movement with the drawing member. (26) relative to the frame (22). 3. Device according to any one of the preceding claims, comprising means for locking the orientation means (30) of the axis of revolution (A) relative to the frame (22). 4. Device according to the preceding claim, in which the locking means of the orientation means (30) can be engaged between: - an engaged position in which the orientation of the axis of revolution (A) is blocked relative to the frame (22), - a disengaged position in which the orientation of the axis of revolution (A) is free relative to the frame (22). 5. Device according to claim 4, comprising means for locking the locking means in the engaged position. 6. Device according to any one of claims 3 to 5, in which the orientation means (30) comprise a ball joint (40) having at least one spherical bearing surface (42), the ball joint (40) being integral in movement of the drawing member (26) relative to the frame (22), the means for locking the orientation means (30) comprise means for clamping (50) the orientation ball (40) arranged on either side of the equatorial plane of the patella. 7. Device (20) according to the preceding claim, in which the clamping means (50) comprise first and second members (52, 54) respectively carrying first and second spherical clamping surfaces (56, 58) capable of cooperate with first and second spherical bearing surfaces (62, 64) of the ball joint (40) respectively, the first and second spherical bearing surfaces (62, 64) being located on either side of the equatorial plane of the kneecap. 8. Device (20) according to any one of the preceding claims, in which: the orientation means (30) comprise a ball joint (40) integral in movement with the drawing member (26) relative to the frame (22), and - the device (20) comprises adjustment means (90) orientation means comprising at least three screws (92), each screw (92) comprising: • a first axial bearing surface (94) capable of cooperating with a first complementary bearing surface (96) carried by the ball joint (40) or a member integral in movement with the ball joint (40), and • a second surface axial support (95) able to cooperate with a second complementary support surface (97) carried by the frame (22) or a member fixedly fixed to the frame (22). 9. Device (20) according to the preceding claim, in which each screw (92) is a pressure screw comprising: - a net carrying the first axial support surface (94), and - a tip carrying the second axial support surface (95). 10. Device (20) according to claim 8 or 9, comprising: - an upstream support (72) axially delimiting at least part of the receiving housing (24) of the wire drawing member (26), and - a downstream support (74) axially delimiting at least one other part of the receiving housing (24) of the drawing member (26), at least one of the upstream and downstream supports (72, 74) being integral in movement of the ball joint (40) and carrying the first complementary bearing surface (96). 11. Device (20) according to any one of claims 8 to 10, comprising means for blocking the orientation means (30) of the axis of revolution (A) relative to the frame (22) comprising means d clamping (50) of the orientation ball joint (40) arranged on either side of the equatorial plane of the ball joint and comprising first and second members (52, 54) respectively carrying first and second clamping surfaces ( 56, 58) spherical able to cooperate with first and second spherical bearing surfaces (62, 64) of the ball joint (40) respectively, the first and second spherical bearing surfaces (62, 64) being located on the side and on the other side of the equatorial plane of the ball joint (40), and at least one of the first and second members (52, 54) respectively carrying the first and second spherical clamping surfaces (56, 58) being fixedly fixed to the frame (22) and carrying the second complementary support surface ire (97). 12. Device (20) according to any one of the preceding claims, comprising means for blocking a radial movement of the drawing member relative to the frame (22) in the receiving housing (24). 13. Device (20) according to the preceding claim, in which the means for blocking a radial movement of the drawing member (26) relative to the frame (22) can be engaged between: - an engaged position in which the drawing member (26) is radially blocked relative to the frame (22), - a disengaged position in which the drawing member (26) is radially movable relative to the frame (22). 14. Device (20) according to claim 12 or 13, wherein the locking means comprise means for blocking an axial movement of the drawing member (26) relative to the frame (22) in the receiving housing (24). 15. Device (20) according to the preceding claim, in which the means for blocking an axial movement of the drawing member (26) relative to the frame (22) can be engaged between: - an engaged position in which the drawing member (26) is axially blocked relative to the frame (22), - a disengaged position in which the drawing member (26) is axially movable relative to the frame (22). 16. Wire drawing installation (200) of a metal monofilament (14) comprising, in the direction of travel (F) of the metal monofilament a series (240) of at least two wire drawing devices (240-j) arranged so reducing the diameter of the metal monofilament between the most upstream wire drawing device (240-1) of the series in the direction of travel of the metal monofilament and the most downstream wire drawing device (240-m) of the series in the direction of travel of the metal monofilament, characterized in that at least one of the drawing devices (240-j) is according to any one of the preceding claims. 17. Installation according to the preceding claim, in which the most downstream wire drawing device (240-m) of the series (240) in the running direction (F) of the metal monofilament (14) comprises a wire drawing member of the monofilament metal to a final diameter d, the installation (200) comprising a storage coil (220) of the metallic monofilament of final diameter d arranged downstream of the most downstream wire drawing device (240-m) of the series (240) in the direction of travel (F) of the metal monofilament (14), and in which the most downstream wire drawing device (240-m) of the series is according to any one of claims 1 to 15. 18. Installation according to the preceding claim, in which d ranges from 0.10 mm to 0.50 mm, preferably from 0.25 mm to 0.45 mm and more preferably from 0.28 mm to 0.42 mm. 19. Installation according to any one of claims 16 to 18, comprising, in the direction of travel (F) of the metallic monofilament (14): - a first series (210) of at least two wire drawing devices (210-i) of the metallic monofilament from an initial diameter D to an intermediate diameter di, a device for heat treatment (230) of the metallic monofilament of intermediate diameter di, - a second series (240) of at least two wire drawing devices (240-j) of the metallic monofilament from the intermediate diameter di to a final diameter d. 20. Installation according to the preceding claim, in which the diameter intermediate di is greater than or equal to 0.5 mm, preferably 1 mm. 21. Installation according to claim 19 or 20, wherein the diameter intermediate di is less than or equal to 2.5 mm, preferably 2.2 mm and more preferably 2 mm. 22. A method of drawing a metallic monofilament (14) comprising, in the direction of travel (F) of the metallic monofilament, a series of at least two drawing steps so as to reduce the diameter of the metallic monofilament between the step of the most upstream drawing of the series in the direction of travel of the metal monofilament and the most downstream drawing step of the series in the direction of travel of the metal monofilament, characterized in that at least one of the drawing steps is implemented by means of a device according to any one of claims 1 to 15. 23. Method according to the preceding claim, in which the most downstream drawing step of the series in the direction of travel (F) of the metal monofilament (14) being implemented by means of a drawing member of the monofilament. metallic towards a final diameter d, the method comprises a step of storing the metallic monofilament of final diameter d downstream of the most downstream drawing step of the series in the direction of travel (F) of the metallic monofilament (14) , and in which the most downstream drawing step of the series is implemented by means of a device according to any one of claims 1 to 15. 24. The method as claimed in the preceding claim, in which the final diameter d ranges from 0.10 mm to 0.50 mm, preferably from 0.25 mm to 0.45 mm and more preferably from 0.28 to 0.42 mm. . 25. Method according to any one of claims 22 to 24, comprising, in the direction of travel (F) of the metallic monofilament (14): a first series of at least two steps of drawing the metallic monofilament from an initial diameter D to an intermediate diameter di, a step of heat treatment of the metallic monofilament of intermediate diameter di, - a second series of at least two steps of drawing the metallic monofilament from the intermediate diameter di to a final diameter d. 26. Method according to the preceding claim, wherein the intermediate diameter di is greater than or equal to 0.5 mm, preferably 1 mm. 27. The method of claim 25 or 26, wherein the intermediate diameter di is less than or equal to 2.5 mm, preferably 2.2 mm and more preferably 2 mm.