The present invention relates to the manufacture of pneumatic tires. More precisely, it relates to the installation, during building, of threads for constituting a tire reinforcement. More particularly, it provides means and a method that are capable of producing such a reinforcement on a form in a shape close or identical to the shape of the internal cavity of the tire, that is to say on a substantially toroidal form that supports the blank of a tire during its manufacture.
In this technical field, processes and apparatuses for incorporating the production of tire reinforcements into the building of the tire itself are already known. This means that, rather than making use of semi-finished products, such as reinforcement plies, one or more reinforcements are produced in situ at the moment of manufacture of the tire, using a single spool of thread.
Among these processes and apparatuses, the solution described in patent application EP 0 580 055 is particularly well suited for the production of carcass or crown reinforcements on a core, the outer surface of this core corresponding substantially to the shape of the internal cavity of the final tire. The figures of this application show in particular an appliance in which the thread, intended to constitute a carcass reinforcement, is laid in contiguous arches onto a rigid core via an eyelet fixed to a chain mounted on pulleys so as to follow a C-shaped path overlapping the core. The eyelet undergoes a to-and-fro movement about the core so as to lay, progressively and in a contiguous fashion, one arch at each outward movement and one arch at each return. Appropriate pressing means are used to apply the ends of said arches progressively as they are formed on the rigid core, the rigid core being precoated with uncured rubber.
Patent application EP 0 962 304 teaches another apparatus also designed to produce carcass reinforcements on a core, the outer surface of which corresponds substantially to the shape of the internal cavity of the final tire. In a first embodiment, there is a single oscillating arm, the end of which, supporting a guide comparable to the abovementioned eyelet, describes circular arcs. The reader may refer to
Patent application EP 1 122 057, teaches yet another apparatus for producing reinforcements on a core. In a first embodiment, there is a system of oscillating arms mutually articulated and supporting a guide comparable to the eyelet of document EP 0 580 055. The system is capable of describing a complex path, differing from a circular arc. The reader may refer to
With these apparatuses of the prior art, a difficulty arises when it is desired to lay non-radial reinforcements, for example crossed crown reinforcements. It has been pointed out that, when the laying plane makes an angle to the radial direction, the operation of the pressing means may no longer be entirely satisfactory, in particular at one of the ends of the arches. Under certain conditions, the ends of the arches (generally in the form of loops) may sometimes escape the pressing means. This difficulty could be due to several causes.
One possible cause is the fact that the inclination of the reinforcements implies an unsymmetrical situation from the point of view of the loops created at the ends of the arches on either side of the tire. This is because, on one side of the tire, the loop develops in the same direction as the direction of advance of the form relative to the laying head, whereas on the other side of the tire the formation of the loop corresponds to the instant when the laying takes place in the reverse direction relative to the direction of advance of the form.
Another possible cause of this difficulty is the inclination of the axis of the laying device (relative to the mid-plane of the tire). This inclination may give rise to an asymmetry in the space requirement of said laying device in the vicinity of the form and may thus limit the accessibility of the pressing means at least on one side of the form.
One objective of the present invention is thus to provide apparatuses that are capable of operating according to the general process described in the aforementioned patent application EP 0 580 055 and capable of laying inclined reinforcements at high rates without prejudicing the precision and quality of the operation.
The invention provides an apparatus for producing a pneumatic tire reinforcement, said apparatus being intended to produce a reinforcement consisting of a thread delivered substantially continuously and on demand by an appropriate delivery device, said apparatus being intended to be used in cooperation with a substantially toroidal form on which said reinforcement is progressively built up by depositing arches of said thread along a desired path for said thread on the surface of said form, said apparatus comprising:
Preferably, the path consists of to-and-fro movements substantially parallel to one another and making an angle with the circumferential direction of the form, this angle being less than 90°, preferably less than 45°.
Preferably, the rotary pressing arm can rotate about an axis substantially parallel to the mid-plane of the form and preferably oriented substantially radially.
According to one embodiment of the invention, the means for moving the guide comprise a rocker undergoing an alternating rotational movement about a rocker axis making an angle with the mid-plane of the form, this angle being substantially complementary to the angle that the arches make with the circumferential direction of the form. Preferably, the rocker being mounted so as to pivot on a support, in which the pressing means placed on the side of the form where said support is located comprise the rotary pressing arm.
Preferably, a first rotary striking arm is furthermore associated with the rotary pressing arm, said first rotary striking arm being capable of striking the thread when it is held against the form by the pressing arm. Advantageously, said first rotary striking arm is placed so as to be able to strike the thread against the form at a point on the form located radially to the outside of the point of contact of the rotary pressing arm on the form during the laying of a first reinforcement. Again advantageously, a second rotary striking arm is furthermore associated with the rotary pressing arm, said second rotary striking arm being placed so as to be able to strike the thread at a point located radially to the outside of the point of contact of the rotary pressing arm during laying of a second reinforcement, said second reinforcement being inclined substantially at the reverse of the angle of the first reinforcement.
It should firstly be noted that the term “thread” should of course be understood in a very general sense, encompassing a monofilament, a multifilament, an assembly, for example such as a cable or a cord, or a small number of cables or cords grouped together, irrespective of the nature of the material, and that the “thread” may or may not be precoated with rubber.
In the present specification, the term “arch” is employed to denote a length of thread going from one singular point to another in the reinforcement, for example from one side of the tire blank to the other. These arches placed over the entire perimeter of the tire together form the actual reinforcement. An arch in the sense defined here may form part of a carcass or of a crown reinforcement or of any other type of reinforcement. These arches may be separated, by cutting the thread during laying, or they are all joined together in the final reinforcement, for example by loops.
When a position, direction or sense is defined with the words “radially, axially, circumferentially”, or when the word “radius” is used, these refer to the form of which the tire is manufactured, or to the tire itself. The geometric reference axis is the rotation axis of the form.
Likewise, as already indicated in the aforementioned patent application EP 0 580 055 the thread-laying members described here also make it possible to produce a reinforcement in which the laying pitch of the thread can vary. The term “laying pitch” is understood to mean the distance resulting from the sum of the gap between two adjacent threads and the diameter of the thread. It is well known that, for a carcass reinforcement, the gap between threads varies depending on the radius at which this gap is measured. It is not a question here of this variation, but of a variable pitch at a given radius. To do this, without changing the working rate of the guide, all that is required is to vary the speed of rotation of the form according to any appropriate law. Thus, what is produced is a tire whose carcass reinforcing threads, for example for a radial carcass, are arranged with a pitch varying in a controlled manner for a given radial position.
Fundamentally, the invention relates to the continuous laying-down of a reinforcing thread, in a configuration as close as possible to the configuration visible in the final product, that is to say in the tire. Since the thread is delivered on demand by an appropriate delivery device, for example comprising a spool of thread and where appropriate a device for controlling the tension of the thread paid out from the spool, the apparatus for producing a reinforcement from a single thread cooperates with a form (such as a rigid core or a membrane) on which the tire is built. It matters little whether the reinforcement is, to be complete, produced in several successive rotations of the form, with or without the thread being cut between two rotations.
The rest of the description will allow all the aspects of the invention to be clearly understood, by relying on the following figures:
In
The thread is delivered substantially continuously and on demand by an appropriate delivery device (not shown). Thread tension-regulating means (not shown here) are used to control the tension of the thread as it is being laid down. For example, a substantially constant tension may be envisioned or, on the contrary, the tension may be controlled so that it varies depending on the position of the guiding eyelet in its alternating movement.
The movement of the eyelet 4 relative to the core is controlled by a laying member 5, for example of the type described in application EP 0 580 055. The thread is thus laid down on the surface of the core in the form of juxtaposed arches 3, the distance between two successive arches corresponding to the laying pitch. The laying pitch is determined by the speed of rotation of the form 1 and the speed of movement of the eyelet 4.
The arches 3 are joined together by loops 6. These loops correspond to the point of return of the thread when the guide 4 reaches one of the axial ends of its movement. The arches make an angle −α with the mid-plane 10 of the core 1 and consequently with the circumferential direction of the future tire. These plan views (in particular
Pressing means are used to press the loops 6 against the form 1.
The series of
The sequence of
In
In
In
In
In
In
It will be clearly understood that the apparatus of the invention may also have only a single rotary pressing arm, as shown in
This inversion possibility is shown in
Of course, it is also possible to use rotary pressing means on both sides (A and B in the figures) of the form. This allows variations in the inclination of the reinforcements and in the designs of the laying member that are even freer to be achieved. However, it will be understood that this is not an indispensable aspect of the invention, the essential point being that one side is equipped with rotary pressing means.
Number | Date | Country | Kind |
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04 12108 | Nov 2004 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP05/55862 | 11/9/2005 | WO | 00 | 10/17/2007 |