FR2998831A3 - Method for applying particles to inner wall of pneumatic tire, involves covering portion of inner wall of pneumatic tire with self-sealing composition layer, and applying particles after curing of tire on self-sealing composition layer - Google Patents

Abstract

The invention relates to a method for applying particles (11) to the inner wall of a tire comprising two sidewalls (3), a crown (2) provided radially externally with a tread, a carcass-type reinforcing structure (7), at least one crown reinforcement (6), the inner surface of the sidewalls (3) and the top (2) forming an inner wall, at least a portion of said inner wall being covered with at least one layer ( 10) of self-sealing composition. The invention is characterized in that the particles (11) are applied after the baking of the tire.

Description

The invention relates to a method for applying particles to the inner wall of a tire comprising at least one layer of self-sealing composition. To protect the tire against perforation caused by the partial or total penetration of external objects, a layer of self-sealing composition is applied to at least a portion of the inner wall of the tire. But this layer of self-sealing composition, applied to the tire after cooking, has the property of being particularly tacky. This sticky appearance quite often causes discomfort during transport and storage of tires. Indeed, during these steps, the tires are arranged in an aligned manner next to one another or nested in chain and are then compressed between them. During this compression, some of the parts constituting the tire, namely the sides and the top, are found tight against each other, and therefore glued to each other with the impossibility of taking off without damaging, even destroy, the architectural structure of the tire. Also, there remains the need to always continue the application of this layer of self-sealing protective composition on all or part of the inner wall of the tires, while still being able to transport and store them, without some of their constituent parts do not adhere to each other. The invention therefore relates to a method for applying particles to the inner wall of a tire having two sidewalls, a crown provided radially outwardly of a tread, a carcass-type reinforcement structure, at least a crown reinforcement, the inner surface of the flanks and the apex forming an inner wall, at least a portion of said inner wall being covered with at least one layer of self-sealing composition. The invention is characterized in that the particles are applied after baking the tire on the self-sealing composition layer. It is also known from JP2004-082387A the application of a plurality of short fibers on the inner surface of a tire in order to reduce the intensity of the noise felt inside the vehicle. This application of the fibers is performed on an adhesive composition previously applied to said inner surface of the pnematique. The adhesive composition and the short fibers are both applied before the baking of the tire, so on a green tire. Unlike JP2004-082387A, the particle layer present on the tire according to the invention is applied after the baking step of the tire, and therefore on a baked tire. This makes it possible to guarantee and maintain a good quality of the application of the particles and their subsequent visual rendering. Indeed, applied on a tire already cooked, the particles do not therefore suffer degradation due to the rise in temperature and pressure in the baking press. The method, as defined according to the invention, provides a tire with the advantage of keeping its architectural structure perfectly intact, and therefore all its technical performance, once mounted on rim, in the measurement, where the addition of these particles does not interfere in any way the subsequent smooth running of the rolling tire, nor does it influence the effectiveness of the self-sealing composition layer. Preferably, the particles are applied by a spraying technique, such as flocking which is preferably carried out by spraying under pressure. Preferably, the shape of the particles may be defined by the L / E ratio greater than 3, where L represents the length or greater dimension of the particle and E represents the average thickness of the particle. The LEL ratio is more preferably greater than 5. Preferably, the particles have a mean diameter of between 1 μm and 5 mm. The particles may have any geometric shape. [0014] Preferably, the particles have a monochromatic or polychromatic color. The presence of colored particles on the inner wall of a tire also makes it possible to distinguish it from an untreated tire by the method of the invention. The particles may be selected from used tires from used tires or from manufacturing scrap, organic synthetic fibers, synthetic mineral fibers, synthetic fibers, natural fibers or their combination. The tire grinders preferably have a size ranging from about 1 [tm to 5mm. The shreds may comprise reinforcing son. These son are defined as being any elongated element of great length relative to its cross section, whatever the shape of the latter, for example circular, oblong, rectangular or square, or even flat, this wire can be rectilinear as non-rectilinear, for example twisted or corrugated. This reinforcement wire may take any known form, it may be for example an elementary monofilament of large diameter (for example and preferably equal to or greater than 50 [tm), an elementary ribbon, d a multifilament fiber (consisting of a plurality of small diameter elementary filaments, typically less than 30 μm), a textile twist formed of a plurality of fibers twisted together, a textile cord formed of a plurality of cabled fibers or monofilaments, or twisted together, or an assembly, a row of son such as for example a strip or strip comprising several of these monofilaments, fibers, twisted or cables grouped together, for example aligned in a main direction, rectilinear or not. Among the synthetic organic fibers are polyolefins, aliphatic polyamides, aromatic polyamides, polyesters. Among the synthetic mineral fibers are carbon fibers, glass fibers, polyester fibers. Among the natural fibers are cotton fibers, silk fibers, wool fibers, cellulose fibers. The particles preferably have an average thickness of between 0.1 and 0.5 mm, and can cover between 60% and 95% of the inner wall of the tire. The invention will now be described with the aid of the single figure and the following exemplary embodiments, which are given solely by way of illustration. - The single figure shows in section a tire according to the invention provided on its inner surface with a layer of particles. As can be seen in this figure, the tire of general reference 1 comprises a vertex 2 reinforced by two crown or belt 6, two flanks 3 and two beads 4, each of these beads 4 being reinforced with a rod 5. The top 2 is surmounted by a tread (not shown). A carcass reinforcement 7 is wound around two rods 5 in each bead 4, the upturn 8 of this armature 7 being for example disposed towards the outside of the tire 1 which is shown here mounted on its rim 9. The carcass reinforcement 7 is in known manner constituted of at least one sheet reinforced by so-called "radial" cables, for example textile or metal, that is to say that these cables are arranged substantially parallel to each other and s' extend from one bead to the other so as to form an angle of between 80 ° and 90 ° with the median circumferential plane (plane perpendicular to the axis of rotation of the tire which is located halfway between the two beads 4 and goes through the middle of the crown frame 6). The inner wall of the tire 1 comprises a layer 10 of self-sealing composition on which is disposed a layer 11 of ground tires. The layer 11 of ground material, covering the layer 10 of self-sealing composition, preferably covers the corresponding inner wall at the top 2 and shoulders 12 of the tire. The ground particles applied to the inner wall of the tire have an average dimension of about 2 mm, and have any geometrical shape. The self-sealing composition may be an elastomeric composition comprising at least one diene elastomer, a hydrocarbon resin and a liquid plasticizer. In addition to various optional additives, it may or may not comprise a crosslinking agent and / or a small fraction of reinforcing filler. This self-sealing composition is described in application WO2011 / 092179A1. The self-sealing composition may also be a composition comprising a blend of at least two solid elastomers, a polybutadiene elastomer or butadiene copolymer (compound A), a natural rubber elastomer or synthetic polyisoprene (compound B), the A / B weight ratio being between 10/90 and 90/10, a hydrocarbon resin, optionally with a filler as described in applications WO2011 / 092122 and WO2011 / 092123. The self-sealing composition may also be a composition comprising a styrenic thermoplastic elastomer as described in FR 2,917,996 or a styrenic thermoplastic elastomer and an extension oil as described in WO2008 / 080557. The self-sealing composition may also be a multilayer laminate comprising a first layer of thermoplastic elastomer block copolymer polystyrene and polyisobutylene, and a second elastomeric layer based on thermoplastic styrene elastomer, the same or different from the first. The first layer optionally comprises an extension oil, and the second layer comprises an extension oil as described in WO2008 / 154996. The self-sealing composition may also be an elastomeric composition comprising at least one major elastomer, a thermoplastic styrene elastomer, extension oil and a hydrocarbon resin as described in WO2009 / 059709. P 10-2961 FR [0030] The layer 11 of ground particles is applied to the layer 10 by spraying. The treatment of the tire according to the invention can be used in any type of tire for a motor vehicle, such as two-wheel type, tourism or industrial, or non-automobile such as bicycle. The tire according to the invention can be used for passenger vehicles that can run at very high speeds, or for heavy-vehicle vehicles capable of driving and operating under conditions of particularly high internal temperatures. The particle layer is preferably disposed on the inner wall of the tire by partially or completely covering it. But this layer can be completely integrated into its internal structure. The tire according to the invention has the advantage of having, in a very wide range of operating temperatures, very little penalty especially in terms of puncture.

P 10-2961 EN

Claims (10)

CLAIMS1 - Method for applying particles (11) to the inner wall of a tire comprising two sidewalls (3), a crown (2) provided radially outwardly of a tread, a carcass-type reinforcing structure (7) at least one crown reinforcement (6), the inner surface of the sidewalls (3) and the apex (2) forming an inner wall, at least a portion of said inner wall being covered with at least one layer (10) of self-sealing composition, characterized in that the particles (11) are applied after baking the tire on the self-sealing composition layer. 2 - Process according to claim 1, characterized in that the particles are applied by a projection technique. 3 - Method according to one of the preceding claims, characterized in that the shape of the particles is defined by the L / E ratio greater than 3, where L represents the length or greater dimension of the particle and E represents the average thickness of the particle. 4 - Method according to one of the preceding claims, characterized in that the particles (11) have a mean diameter of between lùm and 5mm. 5 - Method according to one of the preceding claims, characterized in that the particles (11) have any geometric shape. 6 - Process according to one of the preceding claims, characterized in that the particles (11) have a monochromatic or polychromatic color. 7 - Process according to one of the preceding claims, characterized in that the particles (11) are selected from tire tires used or scrap manufacturing, synthetic organic fibers, synthetic mineral fibers, synthetic fibers, natural fibers or their combination. 8 - Method according to one of the preceding claims, characterized in that the particles (11) have an average thickness of between 0.1 and 0.5mm. P 10-2961 EN 9 - Method according to one of the preceding claims, characterized in that the particles cover between 60% and 95% of the inner wall. P 10-2961 EN