ADVANCED TIRE ROLLER FOR TIRES

专利摘要:
Tread (1) for a truck tire having a total thickness PMU corresponding to the thickness of material to be used in rolling, this tread having a tread surface (10) intended to come into contact with a roadway during rolling a tire provided with this band, this tread comprising at least one cutout (2) opening in the initial state on the running surface (10) when new, this cutout (2) comprising: - an outer portion forming a groove (21) having a mean depth Pe at most equal to 90% of the thickness PMU, and a minimum width Lm measured on the running surface in new condition; an internal part forming the bottom of the cutout (2), this inner part having the shape of a channel (22) of medium height Hc, the channel (22) comprising at least one narrow part (222) of maximum width and at least one enlarged portion (221) of maximum width LE, each enlarged portion (221) of the channel (22) extending into the groove (21) of the outer portion of the cutout (2) by a widening (211) of the groove (21), this widening (211) having a maximum width LM, measured on the running surface in new condition, at least equal to the maximum width LE of the enlarged portion (221) of the channel.
公开号:FR3014747A1
申请号:FR1362636
申请日:2013-12-13
公开日:2015-06-19
发明作者:Damien Bardin；Stephanie Cambon
申请人:Michelin Recherche et Technique SA Switzerland ；Compagnie Generale des Etablissements Michelin SCA；Michelin Recherche et Technique SA France；
IPC主号:

专利说明:

[0001] - 1 - P10-3208 EVOLVING BEARING TIRE TIRE.
[0002] FIELD OF THE INVENTION (0001) The invention relates to treads for tires and more particularly to the tread patterns of these belts as well as tires provided with such treads whose performance in draining the water present on the road surface. Rainy weather is made durable, these treads having improved performance in rolling. STATE OF THE ART (0002) In known manner, conditions of driving in rainy weather require the fastest elimination of water between the tread of each tire and the roadway in order to ensure the contact of the strip. rolling with the pavement. The water that is not pushed onto the front of the tire partially flows in the grooves and incisions formed in the tread of the tire that these grooves and incisions are oriented in the circumferential direction or the transverse direction or still in an oblique direction. (0003) Cutting means any cavity made by molding in a tread, this cutout extending in a main direction and in the depth of the tread. (0004) Groove means here a hollow opening on a running surface intended to be in contact with the roadway, the hollow having an appropriate average width so that the material walls which delimit it are never in contact with the road. with each other under the normal conditions of use of the tire. (0005) Incision here means a thin slot having a small average width and such that, under the normal conditions of use of the tire, the walls of material delimiting it may come, at least partially, in contact with one another. on the other when passing through the area of contact with the roadway. (0006) Material thickness to be used (denoted PMU) means the thickness of the tread that can be used in rolling before reaching the legal limit of use of a tread on a tire identified in particular by wear indicators formed in the grooves. (0007) In the present description, the terms radial or radial are used to indicate a direction which, when taken on the tire, is a direction perpendicular to the axis of rotation of the tire whereas, when it is taken on a tread alone, it corresponds to the direction of the thickness of said strip. In addition, the term circumferential is used to indicate a direction which corresponds to a direction tangent to any circle centered on the axis of rotation of the tire. This same direction corresponds to the longitudinal direction of the tread, which is formed in the manner of a flat strip before incorporation into the manufacture of a tire. (0008) Regardless of the tire category (ie whether it is a passenger vehicle tire or a heavy load vehicle), the tread must have a performance in drainage of water present on the road that is always above a minimum performance called safety performance. Consequently, and in view of the progressive wear of the tread which progressively reduces the cross-sections of the grooves and therefore the capacity of these grooves to evacuate a volume of liquid, it is customary to make grooves opening on the tread surface to the new state and extending in the thickness of the band to at least one level which corresponds to a legal limit requiring removal of the band. (0009) The fact of producing a plurality of grooves on a tread has the disadvantage of reducing the amount of web material for a given band width and consequently substantially affecting the rigidity of the tread. As a result, in order to cope with the stresses to which the belt is subjected during a running, the person skilled in the art must make provision for compensating for these decreases in rigidity by any means at his disposal, notably by adapting the internal structure of the tire which, of course, , is not without impact on the cost price of the tire itself. These decreases in stiffness may further affect the speed of wear, the regularity of wear and some of the performance expected in rolling. (0010) Moreover, there is an increase in rolling resistance, which results in a significant increase in the consumption of vehicles equipped with such tires, resulting from an increase in hysteretic losses related to the cycles of deformation of the material. rubbery which is formed the tread. (0011) It has been proposed in WO 2011-039194 A1 to form grooves in a tread having the characteristic of opening discontinuously on the running surface of the strip in the new state. This groove can be considered as being an undulating groove in the thickness of the strip by opening regularly on the running surface. This type of undulating groove may be formed either in the circumferential direction or in any other direction. As described in this publication, this type of groove is in the initial state (corresponding to the new state of the strip), which makes it possible to ensure, in running on a pavement covered with water, a capture of the water in the groove portions opening on the running surface during passage into contact with the roadway, the water thus captured being drained into the undulating groove under the running surface. The liquid thus captured is then ejected outside the contact region under the effect of centrifugal forces. This same document describes the possibility, like the previous sculpture drawings, of making connections between at least two undulating grooves of this type. This type of embodiment is very powerful but requires a suitable molding technology. BRIEF SUMMARY OF THE INVENTION (0012) The present invention seeks to provide a new cutting geometry without having to change molding technology, this cutting ensuring both an excellent drainage of the water captured during the passage through contact in order to achieve a necessary contact with the road while limiting the decrease in the rigidity of the tread in particular to reduce the hysteretic losses due to the deformation of the tread tread elements during passage through the contact. (0013) The object of the invention is to provide a tread provided with cutouts 20 to have a performance equal to or greater than the minimum safety performance in drainage and this regardless of the level of wear of this while achieving rolling resistance performance meeting the current requirements of the truck tire market. (0014) For this purpose, the subject of the invention is a tread for a heavy vehicle tire having a total thickness PMU corresponding to the thickness of material to be used in rolling. This thickness PMU is most often identified by limit wear indicators present in the bottom of the cutouts. This tread has a tread surface intended to come into contact with a roadway when driving a tire provided with this tread. This running surface evolves with the wear from a running surface in new condition (0015). This tread comprises at least one opening opening in the initial state (new tread not worn ) on the running surface in the new state, this cutout being characterized in that it comprises a plurality of interconnected parts, namely: - 4 - (0016) - an external part, that is to say opening on the running surface in the new state, this external part forming a groove having an average depth Pe at most equal to 90% of the thickness PMU, (0017) - this external part having a minimum width Lm measured on running surface in new condition; (0018) - an internal part forming the bottom of the cutout, this inner portion having the shape of a medium height channel Hc, this channel being intended to form a new groove after a partial wear of the tread at most equal at 90% of the PMU thickness. (0019) - this channel forming the bottom of the cutout and comprising at least a narrow portion of maximum width Le and at least one enlarged portion of maximum width LE, each enlarged portion of the channel extending into the groove of the outer portion of the cutting by widening of maximum width LM at least equal to the maximum width LE of the widened part of the channel. (0020) Preferably the channel forming the inner part of the cutout has a minimum width which is at least 20% of the minimum width Lm of the groove of the outer portion measured on the running surface in new condition (0021) Preferably, the average height Hc of the channel is at most equal to 75% of the thickness PMU. (0022) Preferably each enlarged portion of the channel has a maximum width LE at least equal to 1.2 times the minimum width Le of the same channel and even more preferably at least equal to 1.3 times the minimum width Le. (0023) Preferably the average depth Pe of the outer portion is at most equal to 50% of the thickness PMU. (0024) Thanks to this tread structure, a suitable hollow volume is obtained 25 to achieve satisfactory drainage in new condition and also regardless of the level of wear while controlling the decrease in rigidity of the tread. tread in new condition (0025) To facilitate the flow of liquid inside the cutout according to the invention it is advisable to ensure that the connections between the different parts of the cutout are made without abrupt discontinuity of geometry. The use of suitable connection radiuses is favorable. Preferably, the volume of each widening of the groove is at least equal to the volume of each enlarged portion of the channel. (0027) In order to further limit the decrease in stiffness of the tread provided with at least one cutout according to the invention, it is advisable to provide that the groove closes at least partially during the passage in the rolling contact. . By at least partially closed, it should be understood that with the exception of enlargements, the groove at least in its innermost region is closed, which is to say that this groove has its walls vis-à-vis -vis who come in contact with each other. Thanks to the presence of the widening the drainage of water present on the pavement in rainy weather remains possible towards the interior of the channel. (0028) The invention also relates to a tire provided with a tread defined according to the invention, this tread radially outwardly surmounting a tire casing consisting of a carcass reinforcement and a reinforcing armature. Mountain peak. The tread of this tire is made as one of the variants described above, certain dimensions being related to the average length of the contact surface of the strip with the roadway under the nominal conditions of use of the tire, these nominal conditions. are defined in the ETRTO regulations or J.A.T.M.A. This is particularly the case for the lengths of the enlargements of the external groove and of the enlarged portions of the channel. Indeed, it is advisable that there is always at least one widening in the contact to ensure satisfactory drainage of the water possibly present on the roadway. (0029) Other features and advantages of the invention emerge from the description given below with reference to the accompanying drawings which show, by way of non-limiting example, an embodiment of the object of the invention. BRIEF DESCRIPTION OF THE FIGURES (0030) FIG. 1 shows a partial view of a cutout according to the invention in a tread; (0031) Figures 2A and 2B show sections in two planes perpendicular to the plane of Figure 1 and whose respective traces are represented by the lines IIA-IIA and IIB-IIB. DESCRIPTION OF THE FIGURES (0032) FIG. 1 shows a part of a cutout according to the invention in a tread intended to equip a heavy vehicle tire of size 315 / 70R22.5. - 6 - (0033) This tread 1 comprises in the new state - shown in Figure 1 - a running surface 10 intended to come into contact with a roadway during driving. (0034) On this running surface 10 opens a cutout 2 oriented in a main direction. This cutout 2 extends in the thickness of the tread to a depth greater than the maximum thickness PMU of material to be used in rolling. This maximum thickness PMU is equal in the case presented to 14.5 mm. In this figure, it can be seen that the total depth of the groove is greater than the thickness of material to be used PMU in order to maintain good performance, in particular water drainage in rainy weather, up to a wear corresponding to this depth. (0035) The cutout 2 comprises on its outer portion that is to say radially outwardly a groove 21 of variable section along its main orientation. This groove 21 has a depth equal to 10.4 mm or 72% of the maximum thickness PMU material to use in rolling. (0036) This groove 21 is extended radially inside by a channel 22 continuous in the main direction of the cutout and having a height Hc equal to 4.1 mm. This channel 22 comprises a plurality of widened portions 221 of width L 1 equal to 7.1 mm and a plurality of narrow portions 222 of width L 1 equal to 4.1 mm, the widened portions and the narrow portions of the channel being arranged alternately in the main direction of the cut. (0037) Each enlarged portion 221 of the channel 22 is extended radially outside the tread by a widening 211 constituting part of the groove 21. The maximum width LM measured on the running surface 10 in new condition this widening 211 is here equal to 7.1 mm. Between two groove widenings 211 there are groove portions 212 of average width Lm on the running surface in the new state equal to 5 mm. (0038) Furthermore, in these narrower groove portions 212 it is noted that the bottom of the groove is such that the walls delimiting said incision are suitably inclined with respect to each other so that when passing through contact they may come locally at least in support against each other (the bottom extends radially inwardly through the channel 22). With this support it is possible to limit the loss of rigidity of a tread provided with at least one cutout while ensuring good drainage of the liquids present on the roadway. (0039) Thanks to this cutting design, it is possible in new condition to meet the specifications of a truck tire in terms of performance required when driving on a road paved with water. FIGS. 2A and 2B show sections along two planes perpendicular to the plane of FIG. 1 and whose respective traces are represented by lines IIA-IIA and IIB-IIB. These cuts show the cutout in an unsolicited configuration, that is to say in an unloaded being. It is understood in particular with these two figures that the outer part of the groove can close during the passage in the contact given the small distance between the walls facing each other while in the enlarged regions there is - even in the passage in the contact an opening between the outer portion and the inner portion forming a channel. (0041) What has been shown and described with a single orientation cutout can easily be applied in the case of a circumferentially oriented cutout or in any oblique direction on a tire. Likewise, this cut can follow an undulating or zigzagging general direction. (0042) The invention is not limited to the examples presented and various modifications can be made without departing from its scope as defined by the claims.

权利要求:
Claims (5)
[0001]
CLAIMS 1 - Tread (1) for a truck tire having a total thickness PMU corresponding to the thickness of material to be used in rolling, this tread having a tread surface (10) intended to come into contact with a tire during the rolling of a tire provided with this band, this tread comprising at least one cutout (2) opening in the initial state on the running surface (10) when new, this cutout ( 2) comprising a plurality of interconnected parts, namely: an outer part, that is to say, opening on the running surface (10) in the new state, this outer part forming a groove (21) having an average depth Pe at most equal to 90% of the thickness PMU, this external part having a minimum width Lm measured on the running surface when new; an internal part forming the bottom of the cutout (2), this internal part having the shape of a channel (22) of medium height Hc, this channel (22) being intended to form a new groove after a partial wear of the tread, this tread being characterized in that the channel (22) forming the bottom of the cutout (2) comprises at least one narrow portion (222) of maximum width Le and at least one enlarged portion (221) of maximum width LE, each enlarged portion (221) of the channel (22) extending in the groove (21) of the outer part of the cutout (2) by an enlargement (211) of the groove (21), this widening (211) ) having a maximum width LM, measured on the running surface when new, at least equal to the maximum width LE of the enlarged part (221) of the channel.
[0002]
2- tread according to claim 1 characterized in that the channel forming the inner portion of the cutout has a minimum width which is at least equal to 20% of the minimum width Lm of the groove of the outer portion measured on the running surface in new condition
[0003]
3- tread according to claim 1 or claim 2 characterized in that the average height Hc of the channel is at most equal to 75% of the thickness PMU.
[0004]
4- tread according to one of claims 1 to 3 characterized in that each enlarged portion of the channel has a maximum width LE at least equal to 1.2 times the minimum width Le of the same channel and even more preferably at least equal to 1.3 times the minimum width.
[0005]
5 - Tire with a tread according to any one of claims 1 to 4, this tire being characterized in that it is intended to equip a heavy vehicle.

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同族专利:

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公开号 | 公开日

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EP3094502B1|2019-05-29|

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EP3094502A1|2016-11-23|

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US20160318347A1|2016-11-03|

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CN105829136B|2017-11-21|

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WO2015086624A1|2015-06-18|

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FR3014747B1|2015-12-11|

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CN105829136A|2016-08-03|

引用文献:

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FR3049896A1|2016-04-08|2017-10-13|Michelin & Cie|TIRE TREAD TIRE|

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KR101861473B1|2017-01-25|2018-05-28|한국타이어 주식회사|3 Dimensional Tread Kerf of Vehicle Tire|

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WO2022043508A1|2020-08-28|2022-03-03|Apollo Tyres Global R&D B.V.|Groove beneath sipe|

法律状态:
2015-12-21| PLFP| Fee payment|Year of fee payment: 3 |

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2016-12-22| PLFP| Fee payment|Year of fee payment: 4 |

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2017-12-21| PLFP| Fee payment|Year of fee payment: 5 |

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2019-09-27| ST| Notification of lapse|Effective date: 20190906 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1362636A|FR3014747B1|2013-12-13|2013-12-13|ADVANCED TIRE ROLLER FOR TIRES|FR1362636A| FR3014747B1|2013-12-13|2013-12-13|ADVANCED TIRE ROLLER FOR TIRES|

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US15/104,153| US20160318347A1|2013-12-13|2014-12-09|Evolving tire tread|

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PCT/EP2014/077090| WO2015086624A1|2013-12-13|2014-12-09|Evolving tyre tread|

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CN201480067936.4A| CN105829136B|2013-12-13|2014-12-09|The tire tread of differentiation|

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EP14818911.1A| EP3094502B1|2013-12-13|2014-12-09|Evolving tyre tread|