INCISED ROLLER BELT FOR GENIUS CIVIL TIRE

专利摘要:
A tread (10) having a total width W for a vehicle tire carrying very heavy loads, said tread being provided with at least two generally circumferential (1, 2, 3, 4) and medium-depth trims less than 70 mm and at most equal to the material thickness to be used, these circumferential cuts (1, 2, 3, 4) dividing the tread into a median region (5) having an axial width Wm of at least equal to at 50% and at most equal to 80% of the total width W of the tread, and shoulder regions axially delimiting the tread, the median region (5) comprising a plurality of transverse or oblique incisions ( 61, 62, 63) opening in the circumferential cuts (1, 2, 3, 4), these transverse or oblique incisions (61, 62, 63) closing at least partly during the passage in the contact and having a depth at least equal to 75% of the depth of the cut-outs these transverse or oblique incisions (61, 62, 63) delimiting a plurality of material elements of height equal to the average depth H of said incisions and of circumferential length B equal to the average distance between two transverse or oblique incisions (61 , 62, 63), this tread (10) being such that for all the elements of matter delimited by two consecutive incisions in the median region, the H / B ratio is greater than 0.5 and at most equal to 2.5.
公开号:FR3022493A1
申请号:FR1455866
申请日:2014-06-24
公开日:2015-12-25
发明作者:Francois Barbarin；Guillaume Demaziere
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 P10-3338 ENG TIRE TREAD INCISED FOR CIVIL ENGINEERING TIRES. FIELD OF THE INVENTION [0001] The present invention relates to tire treads for vehicles carrying heavy loads and rolling on uneven ground such as mines. This invention relates more particularly to the sculpture of such bands. STATE OF THE ART [0002] To ensure satisfactory adhesion in traction and braking, it is necessary to form a tread on a tread with a system of cutouts and cavities more or less complex. These cutouts and cavities form a sculpture pattern both on the surface called the running surface intended to come into contact with the ground and in the thickness of the strip. It is known in particular from the patent document FR 1452048 to form large cutouts (called "grooves") and narrow cutouts (called "incisions"). The incisions have appropriate widths to be able to close at least partially during the passage in the area of contact with the roadway. Thus, it is possible to benefit from the presence of ridges formed at the intersection of the cutouts with a running surface while maintaining sufficient rigidity to the strip when the walls facing each other are in contact with each other. one against the other. The need has been felt to improve the performance of tread wear while promoting flattening of the tire reinforcement structure. [0005] Definitions: Radial direction means in this document a direction which is perpendicular to the axis of rotation of the tire (this direction corresponds to the direction of the thickness of the tread). By transverse or axial direction means a direction parallel to the axis of rotation of the tire. By circumferential direction is meant a direction that is tangent to any circle centered on the axis of rotation. This direction is perpendicular to both the axial direction and a radial direction. [0009] Equatorial median plane: it is a plane perpendicular to the axis of rotation and passing through the points of the tire radially furthest from said axis. For a tread this plane divides the band in its width into two halves of equal widths. A rib is a raised element formed on a tread, this element extending in the circumferential direction and generally around the tire. A rib comprises two sidewalls and a contact face, the latter forming part of the running surface and being intended to come into contact with the roadway during driving. In the present document, a cutout generically designates either a groove or an incision and corresponds to the space delimited by walls of material facing each other and spaced from each other by a distance (called "width of the cutout"). What differentiates an incision from a groove is precisely this distance; in the case of an incision, this distance is appropriate to allow the at least partial contact of the opposite walls delimiting said incision at least during the passage in the contact with the roadway. In the case of a groove, the walls of this groove can not come into contact with each other under normal driving conditions. [0012] A tread has a maximum thickness of material to be used in rolling; once this maximum thickness is reached, the tire can be replaced by a new or retreaded tire, that is to say provided with a new tread. The volume of material to be used corresponds, for the tires of the invention, to the quantity of material situated between the running surface in the new state and a virtual surface parallel to the running surface in the new state and passing through the most points inside the cutouts formed in the tread. The surface hollow area of a sculpture is equal to the ratio between the surface of the recesses formed by the cutouts and cavities and the total surface (contact surface of the relief elements and surface of the hollows). A low trough ratio indicates a large contact area of the relief elements and a small trough surface between these elements. The hollow volume ratio of a sculpture of a tread in the new state is equal to the ratio between the volume of the depressions (formed in particular by cutouts, cavities) formed in the tread and the total volume of said band comprising the volume of material to be used and the volume of the hollows. A low void ratio indicates a low void volume relative to the volume of tread material. In the same way, it is possible to define a volume ratio for a region of a tread, this region being delimited axially. The usual conditions for rolling the tire or conditions of use are those defined in particular by the standard E.T.R.T.O. for European use or any equivalent standard depending on the country concerned; these conditions of use specify the reference inflation pressure corresponding to the load capacity of the tire indicated by its load index and its speed code. These conditions of use can also be called "nominal conditions" or "conditions of use". BRIEF SUMMARY OF THE INVENTION The present invention aims to provide a tread for a vehicle tire carrying very heavy loads and rolling in mines on uneven ground that may be particularly aggressive for tires. The strip according to the invention has a tread pattern allowing both an improvement in the wear performance while maintaining a suitable adhesion and this regardless of the state of wear of this band.
[0002] This invention is more particularly applicable to treads of large width, namely of width at least equal to 700 mm. Moreover, the use of these tires is particularly contrasting in terms of load: go full load, back empty, no intermediate load. During the idling phases, the rear tire load is divided by approximately three compared to the full load driving phases. During the 25 idling phases, almost all of the load is supported by a median area of the tread. For this purpose, the subject of the invention is a tread for a vehicle tire carrying very heavy loads, this tread having a total width W and a thickness of material to be used, this strip being provided with at least two cuts of general circumferential orientation and depth of at least 70 mm and 3022493 -4 plus the thickness of material to be used, these cuts dividing the tread into a central region, and regions shoulder axially delimiting the tread. The median region is defined as the region of the band located between the two circumferential cuts axially furthest from the equatorial median plane. This median region has an axial width of at least 50% and at most equal to 80% of the total width W of the tread. [0018] This tread is such that the median region comprises a plurality of transverse or oblique incisions opening in the circumferential cutouts, these incisions closing at least partly during the passage in the contact and having a depth at the end. less than 75% of the depth of the circumferential cuts, these incisions delimiting a plurality of material elements of height equal to the average depth H incisions and circumferential length B equal to the average distance between two incisions. This median zone is such that the H / B ratio is greater than 0.5 and at most 15 equal to 2.5. Even more preferably, the H / B ratio is at least equal to 1.0 and at most equal to 2.0. Advantageously, the hollow volume Tc of the middle region is at least equal to 2% and at most equal to 12%. The void ratio of the median zone 20 is the value of the ratio between the total volume of recesses present in the new state in the central zone of the tread according to the invention and the total volume of this median zone. this total volume including the total volume of the hollows. Preferably, the volume of the hollow region of the central region is at least equal to 2% and at most equal to 6%. In an advantageous variant of the invention, the hollow volume ratio is between 2 and 12% (and even more preferentially between 2 and 6%) for the entire tread while satisfying a specific rate. of hollow volume of the median region at least equal to 2% and at most equal to 12% (and even more preferably between 2 and 6%). Advantageously, the angle of the incisions is at least equal to 45 degrees with the circumferential direction. In known manner, the incisions formed in the tread according to the invention may be provided with locking means limiting the relative movements of the walls vis-à-vis delimiting these incisions. These blocking means are all the more useful as the H / B ratio increases and depending on the use the coefficient of friction between these walls decreases due to the presence of foreign bodies. In order to limit the reduction in the stiffness of the band due to the presence of this plurality of incisions, it is advisable to provide that at least a portion of the incisions comprise means for blocking the relative movements of the facing walls. screw delimiting these incisions. In an advantageous variant of the invention, at least one shoulder area - axially limiting zone tread - is provided with a plurality of transverse or oblique incisions opening on one side in a circumferential cutout delimiting this shoulder region and on the other side on the outside of the tread, these incisions closing at least in part during the passage in the contact and having a depth at least equal to 75% of the depth of the circumferential cuts. These incisions delimit a plurality of material elements of height equal to the average depth H * of transverse or oblique incisions and circumferential length B * equal to the average distance between two transverse or oblique incisions. This shoulder region is such that the ratio H * / B * is greater than 0.5 and at most equal to 2.5. Preferably, the shoulder region is such that the ratio H * / B * is at least equal to 1 and at most equal to 2. According to a variant of the invention, provision is made for the presence in the circumferential direction of a alternating incisions provided with locking means and incisions without such means. If B 'is the length between two incisions without locking means, these two incisions framing an incision or several incisions provided with locking means, then it is advisable that the ratio H / B' is less than 1 or even more preferentially less than 0.7. It is known that the external shape of a tire is affected by the pressurization 30 of the tire. In view of this mechanism, it is preferable to position the cutouts further axially outside so that the width of the middle region is equal to at least 70% and at most 80% of the total width of the the tread. In an advantageous variant of the invention, provision is made to use, at least in the middle region, a rubber mixture as described in one or other of the patent applications FR 14/50965 and FR 14/50967 both filed in France on 07.02.2014. This combination with a sculpture with a low recess ratio makes it possible to obtain an excellent compromise combining both a high level of favorable stiffness for wear and a lowered thermal level in use. Other features and advantages of the invention will be apparent from the description 10 given below with reference to the accompanying drawings which show, by way of non-limiting examples, embodiments of the object of the invention. . BRIEF DESCRIPTION OF THE FIGURES [0032] FIG. 1 shows a partial plan view of the tread pattern according to a first variant; Figure 2 shows a section along a plane II-II whose trace is marked on the plan view shown in Figure 1; [0034] Figure 3 shows a partial view of the drawing of a tread according to a second variant of the invention; FIG. 4 shows in section another variant of the invention. DESCRIPTION OF THE FIGURES [0036] To facilitate the reading of the figures, the same reference signs are used to describe variants of the invention since these reference signs refer to elements of the same nature that it is structural. or functional. The figures serve as a support for the description without pretending to show the variants to scale. [0038] Figure 1 shows a partial view of a first variant of a tread 10 of a tire according to the invention shown in plan. This tread 10 is intended to equip a radial tire size 40.00 R 57 itself intended to equip a vehicle type dump truck ("dumper" in English) to carry very heavy loads. [0040] This tread 10 has a total width W equal to 997 mm and intended to come into contact with the ground by a running surface 100 during rolling. This tread 10 comprises four circumferential cuts 1, 2, 3, 4 of width equal to 8 mm on the tread of the tire in new condition and depth equal to 71 mm. At the bottom of each cut, the width is equal to 6 mm (this height is measured in wear limit). These circumferential cuts have a width such that during the passage in the contact the walls delimiting said cutouts come into contact one against the other. These circumferential cuts 1, 2, 3, 4 are arranged symmetrically with respect to the equatorial median plane marked by the line XX 'in FIG. 1 and at distances of 100 mm and 300 mm (for the cutouts axially the outermost) of this median plane. A middle region 5 is defined as the region delimited axially by the two circumferential cuts 1 and 4 axially furthest apart from each other. In the present case, the width Wm of this median region 5 is equal to 606 mm. This median region 5 comprises three circumferential rows 51, 52, 53 20 each delimited by two circumferential cuts. Each circumferential row 51, 52, 53 is provided with a plurality of incisions, respectively 61, 62, 63, these incisions being oriented in the transverse direction perpendicular to the circumferential direction and therefore parallel to the direction of the axis of rotation. tire provided with this band. Each transverse incision 61, 62, 63 opens on either side in a circumferential cutout. Moreover, these transverse incisions are offset from each other in the circumferential direction from one row to another. These transverse incisions with the circumferential cuts define in each circumferential row 51, 52, 53 a plurality of material elements 71, 72, 73 respectively whose average height corresponds to the average depth of said incisions and cuts. Axially outside the median region are formed circumferentially continuous ribs and devoid of incisions. The tread 10 is axially limited by shoulder regions 8 devoid of any transverse or oblique incisions. FIG. 2 shows a partial view in a section in a plane perpendicular to the axis of rotation, this section being marked by its trace II-II in FIG. 1, the distribution of the incisions 63 formed in FIG. circumferential row 53. These incisions 63 have for dimensional characteristics: [0050] average depth H equal to 70 mm [0051] - width equal to 8 mm in area; 6 mm at the bottom. These incisions 63 define with the cutouts 3 and 4 a plurality of material elements 73 having a height equal to the depth H of the incisions (ie 70 mm) and a circumferential length B on the running surface 100 equal to 130 mm. The other transverse incisions 61, 62 have the same dimensional characteristics. Under these conditions, the material thickness to be worn by the tread is 71 mm. Under conditions of use corresponding to a load of 60 tons and an inflation pressure equal to 6 bars, there is a partial closure of the incisions during the passage in the contact region with the ground; this contact of the facing walls affects about at least 33% of the area of the walls delimiting each incision (i.e., at least 33% contact). The incisions of the present variant are devoid of any means of blocking relative movements between the walls delimiting each incision; in a variant not shown, the incisions may in known manner be provided with such locking means (geometry corrugated walls or zigzag, the presence of a plurality of recesses and 25 bumps adapted to cooperate with each other). In these conditions and between two incisions 63, the element of material therefore has a ratio I-1 / B equal to 0.54 (= 70/130). This same ratio H / B is found for the other two circumferential rows 51, 52. Thanks to the provisions according to the invention described in particular with this first variant, it has been possible to substantially improve wear resistance while retaining proper adhesion that regardless of the state of wear of the tread. [0057] FIG. 3 shows a partial view of a tread according to a second variant of the invention. The tire according to this variant is of the same size as for the first example of the invention, namely a tire size 40.00 R 57. This tire is provided with a tread 10 of total width W equal to 997 mm. This tread comprises four circumferential cutouts 1, 2, 3, 4 10 of width 8 mm in surface and 6 mm in the bottom of sculpture and depth 71 mm. These circumferential cuts 1, 2, 3, 4 are arranged symmetrically with respect to the equatorial median plane XX 'and at distances equal to 100 mm and 300 mm from this plane. These circumferential cuts delimit circumferential rows, two of which form shoulder regions 8. [0061] A median region delimited axially by the two circumferential cutouts 1, 4 axially furthest from each other is defined. In this case, the width Wm of the median region is equal to 606 mm. This median region 5 comprises three circumferential rows 51, 52, 53 and on each circumferential row a plurality of incisions oriented obliquely with respect to the transverse direction, the angle of these oblique incisions being equal to 15 degrees. . Each oblique incision opens on either side in a cutout and delimits on each circumferential row 51, 52, 53 a plurality of material elements 71, 72, 73 respectively. These oblique incisions of the median region 5 have an average depth H 25 equal to 70 mm and have alternately either a very small width (equal to or close to zero) or a width equal to 8 mm at the surface of the strip. rolling. The average distance B between the incisions is equal to 65 mm. Under these conditions, the H / B ratio of the material elements formed on the median portion is equal to 1.08 (= 70/65). In addition, each shoulder region 8 situated axially at the Outside the middle region 5 and axially limiting the tread 10 is provided with a plurality of oblique incisions 64, 65 respectively. These oblique incisions are oriented in the same oblique direction at an angle of 15 degrees with the axial direction, identical to the oblique incisions of the median region. Each of the oblique incisions of the shoulder regions opens on one side in a circumferential cutout and on the other side of the tread. [0068] The oblique incisions 64, 65 formed on the shoulder regions have dimensional characteristics: [0069] an average depth H * variable in width, this depth being on average equal to 45 mm; [0070] a width close to 0 mm (in this case the facing walls delimiting an incision are in contact on at least a part of the surface of these walls); [0071] the circumferential distance B * between two successive incisions equal to 68 mm. Between two incisions of the shoulder regions, each element of material has a ratio H * / B * equal to 0.66 (= 45/68). In this second variant, the median region 5 and the shoulder regions 8 both satisfy the condition laid down by the invention, namely a height to circumferential length ratio of between 0.5 and 2.5. According to another variant of the invention, a section of which is shown with FIG. 4, the presence, in the circumferential direction of the circumferential rows of the median region, of an alternation of transverse incisions 8 provided with blocking means and transverse incisions 7 devoid of such means. In the example shown, two incisions 7 devoid of locking means frame two incisions 8 provided with such means (here in the form of a zigzag geometry). If B 'is the length between two incisions 7 devoid of blocking means, then it is advisable that the ratio H / B' is less than 1 or even more 3022493 preferentially less than 0.7 while the H / B ratio is greater than 0.5 and at most equal to 2.5. In these reports, the size H represents the height of the material elements formed by the incisions (this height is equal to the average depth of these incisions). In the case shown, the ratio H / B is equal to 1.8, and the ratio H / B 'is equal to 0.6. The advantage of such a variant lies in a better compromise rigidity of the tread in use and ease of demolding in manufacturing. The invention which has been described with the support of these examples can not of course be limited to these examples and various modifications can be made without departing from the scope defined by the claims. 10

权利要求:
Claims (13)
[0001]
CLAIMS 1- Tread (10) for a vehicle tire carrying very heavy loads, this tread (10) having a total width W and a material thickness to be used, this tread (10) being provided with minus two cuts of general circumferential orientation (1, 2, 3, 4) and of average depth at least equal to 70 mm and at most equal to the material thickness to be used, these circumferential cuts (1, 2, 3, 4) dividing the tread into a median region (5), and shoulder regions axially delimiting the tread, the medial region (5) being defined as the region of the web between the two circumferential cuts (1). , 4) axially furthest from the equatorial median plane, this median region (5) having an axial width Wm of not less than 50% and not more than 80% of the total width W of the tread, that strip of bearing (10) being such that the medial region (5) comprises a plurality of transverse or oblique incisions (61, 62, 63) opening in the circumferential cuts (1, 2, 3, 4), these transverse or oblique incisions (61, 62, 63 ) closing at least partially during the passage in the contact and having a depth of at least 75% of the depth of the circumferential cuts, these transverse or oblique incisions (61, 62, 63) delimiting a plurality of elements of material of height equal to the average depth H of said incisions and circumferential length B equal to the average distance between two transverse or oblique incisions (61, 62, 63), this tread (10) being characterized in that, for all delimited by two consecutive incisions in the median region, the ratio II / B is greater than 0.5 and at most equal to
[0002]
2.5. 2- tread (10) according to claim 1 characterized in that the ratio H / B is at least equal to 1.0 and at most equal to 2.0.
[0003]
3- tread (10) according to claim 1 or claim 2 characterized in that the trough volume Tc of the middle region (5) is at least 2% and at most equal to 12%. 3022493 - 13 -
[0004]
4- tread (10) according to claim 3 characterized in that the trough volume Tc of the central region is at least equal to 2% and at most equal to 6%. 5
[0005]
5- tread (10) according to any one of claims 1 to 4 characterized in that the angle of the transverse or oblique incisions (61, 62, 63) is at least equal to 45 degrees with the circumferential direction.
[0006]
6- Tread (10) according to any one of claims 1 to 5 characterized in that at least a portion of the transverse or oblique incisions (61, 62, 63) comprise means for blocking the relative movements of the walls vis-à-vis delimiting these incisions.
[0007]
7- Tread (10) according to any one of claims 1 to 6 characterized in that at least one shoulder region - axially limiting region of the tread - is provided with a plurality of transverse or oblique incisions (64, 65) opening on one side in a circumferential cutout defining this shoulder region and on the other side on the outside of the tread, these transverse or oblique incisions (64, 65) closing at least in part when passing through the contact and having a depth of at least 75% of the depth of the circumferential cuts, and these transverse or oblique incisions (64, 65) delimiting a plurality of material elements of height equal to the depth mean H * transverse or oblique incisions (64, 65) of the shoulder region and circumferential length B * equal to the average distance between two transverse or oblique incisions (64, 65), this region paule being such that the ratio H * / B * is greater than 0.5 and at most equal to 2.5.
[0008]
8- tread (10) according to claim 7 characterized in that the shoulder region is such that the ratio H * / B * is at least 1 and at most equal to 2. 3022493 - 14 -
[0009]
9- A tread (10) according to any one of claims 1 to 8 characterized in that it comprises in the circumferential direction alternating incisions provided with locking means and incisions without such means, two incisions without blocking means flanking an incision or several incisions provided with locking means.
[0010]
10- A tread (10) according to claim 9 characterized in that the distance B 'between two incisions without locking means is such that the ratio H / B' is less than 1. 10
[0011]
11- tread (10) according to claim 10 characterized in that the distance B 'between two incisions without locking means is such that the ratio H / B' is less than 0.7 15
[0012]
12- tread (10) according to any one of claims 1 to 11 characterized in that the trough volume of the entire tread is between 2 and 12% and in that the rate of hollow volume of the central region of the tread is at least equal to 2% and at most equal to 12%, and even more preferably between 2% and 6%. 20
[0013]
Tire comprising a tread (10) according to any one of claims 1 to 12 characterized in that the width Wm of the median region is equal to at least 70% and at most 80% of the total width W of the tread. 25

类似技术:

---

公开号 | 公开日 | 专利标题

---

EP3102437B1|2018-12-12|Tread for goods vehicle tyre

---

EP2834089B1|2016-06-08|Heavy goods vehicle driven axle tyre tread

---

EP3102436B1|2018-01-10|Tread for heavy-goods vehicle tire

---

EP3094502B1|2019-05-29|Evolving tyre tread

---

EP3160773B1|2018-04-11|Incised tread for civil engineering tire

---

EP2874829B1|2016-07-06|Tread for tyre of a drive axle of a heavy goods vehicle and tyre

---

EP2788204B1|2017-11-01|Combination of a heavy duty tire structure with a tread profile

---

EP2911894B1|2017-12-06|Tread capable of evolving

---

EP3126158B1|2019-11-20|Tread with channels on the edges of same

---

FR2744067A1|1997-08-01|TIRE TREAD FOR TIRES

---

WO2018096257A1|2018-05-31|Tread with incised ribs

---

EP3433111B1|2020-07-15|Tread for a tire

---

FR3002489A1|2014-08-29|IMPROVED BEARING TAPE FOR CIVIL ENGINEERING TIRES

---

FR3039097A1|2017-01-27|HEAVY-WEIGHT TIRE TREADBAND IMPROVING ROLLING NOISE

---

EP2825399B1|2016-04-20|Thick tread for civil engineering tyres

---

EP3648991B1|2021-03-10|Tire comprising a tread with undulated grooves

---

EP3383673B1|2019-11-06|Tire tread block geometry

---

EP3802154A1|2021-04-14|Tyre tread comprising wavy grooves and sipes

同族专利:

---

公开号 | 公开日

---

JP2017520453A|2017-07-27|

---

WO2015197429A1|2015-12-30|

---

CN106457920B|2018-06-08|

---

BR112016029300A2|2018-11-27|

---

BR112016029300B1|2021-01-05|

---

US20170157989A1|2017-06-08|

---

EP3160773A1|2017-05-03|

---

US10780745B2|2020-09-22|

---

FR3022493B1|2016-07-01|

---

EP3160773B1|2018-04-11|

---

CN106457920A|2017-02-22|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

JP2004262295A|2003-02-28|2004-09-24|Bridgestone Corp|Heavy duty pneumatic tire for construction vehicle|

---

JP2007191093A|2006-01-20|2007-08-02|Bridgestone Corp|Tire for construction vehicle|

---

JP2008114738A|2006-11-06|2008-05-22|Bridgestone Corp|Tire for heavy load and usage thereof|

---

US20130206299A1|2010-10-22|2013-08-15|Bridgestone Corporation|Heavy load pneumatic tire for construction vehicles|

---

JP3110783B2|1991-04-02|2000-11-20|株式会社ブリヂストン|Pneumatic radial tire|

---

DE19812778C2|1998-03-24|2002-07-04|Continental Ag|Highly stable sipe, vulcanization form with such sipes, vehicle tires with a tread into which cuts are made by means of such sipes|

---

JP4707849B2|2001-02-26|2011-06-22|株式会社ブリヂストン|Pneumatic tire and method for manufacturing pneumatic tire|

---

EP1403098B1|2001-06-07|2007-01-03|Bridgestone Corporation|Off the road tire|

---

JP4294532B2|2004-04-09|2009-07-15|株式会社ブリヂストン|Pneumatic tire|

---

WO2006001202A1|2004-06-23|2006-01-05|Bridgestone Corporation|Pneumatic tire|

---

JP5002202B2|2006-07-05|2012-08-15|株式会社ブリヂストン|Pneumatic tires for construction vehicles|

---

JP4805762B2|2006-09-05|2011-11-02|株式会社ブリヂストン|Construction vehicle tires|

---

JP2009012648A|2007-07-05|2009-01-22|Bridgestone Corp|Pneumatic radial tire|

---

JP5001991B2|2009-10-20|2012-08-15|住友ゴム工業株式会社|Pneumatic tire|

---

JP5705487B2|2010-09-29|2015-04-22|株式会社ブリヂストン|Heavy duty pneumatic tire|

---

DE112011105653B4|2011-09-22|2018-05-09|The Yokohama Rubber Co., Ltd.|tire|

---

JP5480867B2|2011-10-07|2014-04-23|住友ゴム工業株式会社|Pneumatic tire|

---

EP2839974B1|2012-04-16|2017-05-31|Bridgestone Corporation|Tire|

---

JP6243233B2|2014-01-17|2017-12-06|株式会社ブリヂストン|tire|FR3049218A1|2016-03-25|2017-09-29|Michelin & Cie|INCLINED TIRE RUN FOR OFF-ROAD TIRES|

---

WO2018185436A1|2017-04-04|2018-10-11|Compagnie Generale Des Etablissements Michelin|Tyre with improved performances|

---

EP3727894B1|2017-12-22|2021-12-15|Compagnie Generale Des Etablissements Michelin|Heavy goods vehicle tyre with improved endurance|

---

FR3095984A1|2019-05-16|2020-11-20|Compagnie Generale Des Etablissements Michelin|Civil engineering type heavy vehicle tire tread|

法律状态:
2015-06-19| PLFP| Fee payment|Year of fee payment: 2 |

---

2015-12-25| PLSC| Search report ready|Effective date: 20151225 |

---

2016-06-27| PLFP| Fee payment|Year of fee payment: 3 |

---

2017-06-21| PLFP| Fee payment|Year of fee payment: 4 |

---

2018-06-20| PLFP| Fee payment|Year of fee payment: 5 |

---

2020-03-13| ST| Notification of lapse|Effective date: 20200206 |

优先权:

---

申请号 | 申请日 | 专利标题

---

FR1455866A|FR3022493B1|2014-06-24|2014-06-24|INCISED ROLLER BELT FOR GENIUS CIVIL TIRE|FR1455866A| FR3022493B1|2014-06-24|2014-06-24|INCISED ROLLER BELT FOR GENIUS CIVIL TIRE|

---

EP15729178.2A| EP3160773B1|2014-06-24|2015-06-16|Incised tread for civil engineering tire|

---

BR112016029300-2A| BR112016029300B1|2014-06-24|2015-06-16|incised tread for civil engineering tire|

---

CN201580034000.6A| CN106457920B|2014-06-24|2015-06-16|The tyre surface with narrow otch of civil engineering tire|

---

PCT/EP2015/063446| WO2015197429A1|2014-06-24|2015-06-16|Incised tread for civil engineering tire|

---

US15/320,949| US10780745B2|2014-06-24|2015-06-16|Incised tread for civil engineering tire|

---

JP2016575135A| JP2017520453A|2014-06-24|2015-06-16|Tread with cuts for civil engineering tires|