• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    1522964 Pneu matic tyre tread reinforcements MICHELIN ET CIE (COMPAGNIE GENERALE DES ETABLISSEMENTS MICHELIN) 31 July 1975 [31 July 1974] 32117/75 Heading B7C A pneumatic tyre comprises a tread reinforcement consituted by at least two plies of parallel cords, the cords of the plies or each pair of adjacent plies crossing and the cords of each ply making an acute angle of not more than 45 degrees with the circumferential direction at least at the ply edges, at least one edge of the tread reinforcement extending axially beyond a line 11 joining the adjacent edge of the ground contacting surface of the tread and the sidewall by not more than 50% of half the width of the ground contacting surface of the tread. The extending edge portion is covered by rubber 6, 8 with the rubber 8 having a concave section, and the rubber covering the radially external face of that edge portion does not come into contact with the ground. The rubber 6, 8 may be the same as that of the tread or sidewall or the rubber 8 may have a modulus between 80 and 200 g./mm.<SP>2</SP> at 100% elongation. Dimension "e" may be 1-10% of the halfwidth of the tread. Rubber strips 37 (Fig. 3) may be positioned between the edges of the plies or of adjacent plies. Strengthening ribs 38 may extend radially inwardly from the rubber 8. The extending portion(s) may assist in cooling the tyre.
    公开号:SU871727A3
    申请号:SU752156904
    申请日:1975-07-29
    公开日:1981-10-07
    发明作者:Вердье Анри
    申请人:Мишлен Э Ко (Фирма);
    IPC主号:
    专利说明:

    This invention relates to the design of tires: pneumatic tires for vehicles. Known tires pneumatic tires made with reinforcement containing the upper reinforcement layer breaker l. Usually, such additional fitting or top reinforcement, regardless of the type of frame used (cross-section or radial), is aimed at strengthening the tread to resist deformation. For this reason, usually the top reinforcement has an axial width close to the width of the running surface, i.e. tire rolling surfaces regardless of the width of this surface relative to the maximum distance between the axes of the two sidewalls of the tire. Known pokryki with tread; 1.2 In this case, the protruding portion of the tread is used to protect against damage caused by hard, cutting sidewalls of the tire, as well as for additional adhesion and pressure reduction of the pneumatic tire on the ground. However, the upper reinforcement, although it contributes to the reinforcement of the protruding part, has a width noticeably smaller than the width of the rolling surface. The main disadvantage of the known constructions is that they do not introduce any relaxation of stresses when cutting into the marginal zones of the layers of the upper reinforcement, where due to these stresses the layers are separated. On the contrary, some constructions increase the stresses when cutting between the upper layers of the marginal zones, which leads to a weakening of the tire .; Pneumatic tires with convex sidewalls and a tread are also known, whose profile width exceeds the width of the tread along the sidewalls, contains breaker reinforcement located under the tread, with a cord inclination no more than meridional pressure, having a meridional curvature less than its curvature around the circumference wider than the width of the tread and forming protrusions, covered by rubber, radially deepened from the outside relative to the tread, and from the inside - matched constant concave surface of the sidewall 3.
    The last of the described technical solutions is the closest to the proposed invention in technical terms.
    A disadvantage of the known tire is its low lifespan. The purpose of the invention is to increase the service life by reducing the tangential stresses in the edge zone of the breaker.
    This is achieved by the fact that the reinforcement of the breaker is made in the form of two layers of wire or cables, parallel in each layer and intersecting from one layer to another, and the protrusion has a height of 4-10% of half the tread width.
    At the same time, the part that protrudes from the upper reinforcement is not subjected to compression and compression, caused by the adjacent parts (tread and sidewall) of the pneumatic tire. Consequently, this protruding portion is not subjected to stresses when cut between the edges of the upper layers of normal width, and is also not subjected to heat, which adversely affects the endurance of the bonding rubber. Moreover, the protruding part creates an element capable of reducing the operating temperature of other zones of the upper reinforcement, in particular when there are reinforcement elements that conduct heat well.
    In addition, the sum of the half width of the upper reinforcement and the overhang contributes 45-60% of the maximum outer tire width, measured at the sidewall level.
    The thickness of the rubber covering the protrusion from the outside in the axial direction is 1-10% of the half-width of the tread measured at the protrusion.
    The rubber, covering the inside of the protrusion, has a modulus of 80-100 g / mm 2 at 100% elongation, and also has ribs separated by radial grooves
    It is advisable when rubber bands are laid between the ends of the upper layers of reinforcement.
    V. de cases the protrusion of the reinforcement can be performed only on one side of the tire.
    FIG. 1 shows the proposed pneumatic tire, radial section} in FIG. 2 - a fragment of the tire with a cut in place of the protrusion of the reinforcement; figure 3 is a radial section of a tire with a unilateral protrusion; in fig. 4 the same, in a different version; Figures 5, b, l show various embodiments of the protrusions; figs. 8 is a section of the tire in the zone of contact with the supporting surface.
    In the radial section, pneumatic tire 1 has frame reinforcement 2, the upper reinforcement of two layers 3 and 4 wires or cables, the ends of which are 5 and b (see Fig. 2), protrude from the visible contour 7 of the tread 8. In FIG. 1 also presents maximum axial
    width 5, achieved by the outer surface of the sidewall, axial width B of the tread at the level of the surface in contact with the ground, as shown in FIG. 8, the width E (FIG. 2) of the protruding part of the upper reinforcement, and this width is measured from the point L E at which this reinforcement crosses the line L / indicated below, the axial thickness e of the part 9 outer axially covering the protruding part 9, and line XX of the equatorial plane of the pneumatic tire. As can be seen in the drawing, the edges of the upper reinforcement 3.4 are covered with rubber. Rubber 10, radially located outside the protruding part 9 of the upper reinforcement, has such a profile that it is not in contact with the ground (see. Fig. 8). This profile can be concave (Figs. 1, 2, 3, 4 and 8), straight-line (Fig. 5), convex (Fig. 6), sinusoidal (Fig. 7), etc.
    As for the rubber 11, which is radially located inside the protrusion of part 9, its profile is concave and reaches the contour 12 of the sidewall 13 along the trajectory that, with respect to the imaginary line L, connecting the edge of the tread surface 8 to the point p, in which the pneumatic tire is mounted on its the rim, inflatable but not loaded, has a maximum width, passes either completely outwards, or completely inwards, or crosses this line at least at one point, as shown by the dashed line in FIG. 2. The edge of the tread can be defined as consisting of the side formed at point D, where the radial outer side of the pneumatic tire meets, the outer axial side of the pneumatic tire and the outer axial side of the sidewall zone, adjacent to the outer outer radial side. If (Fig. 7) this edge is clearly indicated, point D is determined by placing an inflatable tire on a flat horizontal soil that carries a nominal load. At the same time, point P is at a distance from the equatorial plane X - X of the pneumatic tire, equal to half the maximum width of the area of contact between the tread and the ground. At the same time, the upper reinforcement is pre: set in FIG. 1 and 8, has two protruding parts 9, the reinforcement 14, shown in section of FIG. 3, has only one protruding part 15. In the part where it does not protrude from the tread 8, the upper reinforcement 14 has the usual structure, on the contrary, the tread has a block elongation 16. The variant shown in FIG. 3, I is suitable for pneumatic tires, for off-road movements, for example, for aerial work.
    The warrant shown in FIG. 4 on the exit side of the upper reinforcement, between the ends 17 and 18 on one side and 18 and 19 on the other side of the layers forming this reinforcement, there is a narrow rubber band 20. The modulus of this rubber is at least solved by the rubber forming the tread. On the same side, the tire of the pneumatic tire is provided with lateral reinforcement with radial grooves delimiting radial ribs 21 in re, zine radially located inside the protruding part of layers 17, 18 and 19. The drawing plane passes through one of these radial grooves For the reinforcement both edges protrude from the protector, the total width of this reinforcement is preferably from 90 to 120% of the maximum axial width of the sidewalls. A pneumatic tire tire refers to all top reinforcement interacting with the following types of frame reinforcement: intersecting crossed, PCB or partially radial and with cross layers. The invention is also applicable to pneumatic tires that are not equipped with frame reinforcement, but with upper reinforcement. It also refers to upper reinforcement with layers of ordinary width or a part of this width, with bent or unbent sections, regardless of the meridian curvature of these reinforcement. They are also well suited to upper cylindrical valves, i.e. to those whose meridian curvature is less than the longitudinal curvature. Indeed, such upper fittings, having a normal width, are constantly subjected to edge stresses that affect their tolerance. Despite the relatively large distance of their edges from the neutral core of the pneumatic tire carcass. if pneumatic tires are used on stony soils, rocks, etc., it is recommended that the end parts of the upper reinforcement be provided with rubber strips of small width with an elastic modulus of 100% of the corresponding lengths inserted between the ends of the layers constituting these upper reinforcement. It is desirable that this width not exceed the width of the protruding part. It is also recommended that the mass of rubber covering the radial inner CTOjpOHy of the protruding part of the upper reinforcement should have a meridian profile, the concavity of which would be facing outwards. Such an embodiment allows, with maximum efficiency, to isolate the protruding edge zones of the upper reinforcement from the reactions of the sidewalls of the pneumatic tires and even to reduce the width of the protruding zones. It is also possible to fill the concavity between the radial inner side of the projecting zone of the upper reinforcement and the sidewall rubber with the module from 80 to 20 g / mm to 100% elongation. The protector of the pneumatic tire is provided with concave and convex elements depending on the purpose of the pneumatic tire. The rubber covering the protruding part of the upper reinforcement from the outer outer side may be smooth or provided with concave or convex elements, for example, to increase the rigidity of the protruding part or to remove heat accumulated by the end of the protruding part. The rubber covering the protruding part has a thickness (measured in the direction of the axis) equal to half the axial width of the tread in the place in which the upper reinforcement protrudes from the tread. Although it is more economical to use the covering part of the upper reinforcement of the same rubber as the TL used for the tread or for covering or protecting the corresponding sidewall, it is also possible to use for the same purpose rubber for calendering the upper layers or rubber that is routed between the ends top layers. The combination of the upper reinforcement of the present invention with the tread, which has a shoulder protruding from the maximum axial width of the pneumatic tire, also provides good results. In the case when the upper reinforcement has only one protruding part, the pneumatic part of the protrusion part is set facing the inside of the using vehicle. Such an implementation is considered favorable regardless of the ground (road, highway, construction site, open hearth, etc., along which the vehicle moves. It was determined that the edge of the upper reinforcement, directed inside the vehicle, is most often affected separation of the upper layers, or damage caused by external influences, such as stones, rock bricks, etc. For pneumatic traffic, moving at least partially outside the roadway, it is recommended to be used together as This can be done on the side of the pneumatic tire located outside the vehicle, according to the French patent No. 1452787, which can be used for mounting pneumatic tires on the one hand, but only a part of the upper arm fittings can also be used for pneumatic tires on one hub, although performance with two protruding parts provides in this case the best results.
    In the case of pneumatic tires, designed to move off-road, it is also possible to combine on the same edge of the upper reinforcement the lateral tread of the tread with the projecting part of the upper reinforcement. It is recommended to replace the part of the rubber of the lateral protrusion, located radially inside the protruding part of the upper reinforcement, with radial supporting ribs so that the protruding part of the upper reinforcement does not undergo the reaction of the sidewalls of the pneumatic line.
    The described technical solution provides a significant increase in tire life.
    权利要求:
    Claims (7)
    [1]
    1. A pneumatic tire with convex sidewalls and a tread, the profile width of which over the sidewalls exceeds the width of the tread, contains the belt breaker reinforcement located under the tread, with a cord tilt angle not more than 45 to the meridional direction, having a meridional curvature less than its circumference and curvature the width of the tread is greater than the width of the tread and forming a protrusion, covered by rubber, radially deep from the outside relative to the tread, and from the inside - with a mating concave surface with a sidewall, about the fact that, in order to increase the service life by reducing the tangential stresses in the marginal zone of the breaker, the breaker reinforcement is made of two layers of perforated wires, pargishly located in each layer and crossing from one layer to another, and the protrusion has a height equal to 4-10% of half the width of the tread.
    [2]
    2. The overcoat of claim 1, wherein the sum of the half width of the upper reinforcement and the protrusion is 45-60% of the maximum outer width of the tire, measured at the level of the sidewalls.
    [3]
    3. Patch on PP. 1 and 2, characterized in that the thickness of the rubber, covering the protrusion from the outside in the axial direction, is 1-10% of the half-width of the tread measured at the location of the protrusion.
    [4]
    4. Patch on PP. 1-3, characterized in that the rubber, which covers the inside of the protrusion, has a modulus of 8L-100 g / mm at 100% elongation.
    [5]
    5. Patch on PP. 1-4, characterized in that the rubber covering the inside of the protrusion has ribs separated by radial grooves.
    [6]
    6. Packing on PP. 1-5, characterized in that strips of rubber are laid between the ends of the upper layers of reinforcement.
    [7]
    7. Pokryshka on PP. 1-6, about t i luyayutstsa. so that the protrusion of the armature 9 is full on one side only.
    Sources of information taken into account in the examination
    1. Tsikerberg S.M. et al. Pneumatic tires, M., Himi, 1973,
    with. 9-iO.
    2. Patent of the transaction № 1548239, cl. In 60 C, 1967.
    3. Patent CMA 3044519, cl. 152-187, 1962 (prototype). S ъ
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    同族专利:
    公开号 | 公开日
    IL47857D0|1975-11-25|
    CH599864A5|1978-05-31|
    RO83408B|1984-09-30|
    IN143425B|1977-11-26|
    NL7509145A|1976-02-03|
    IE41592L|1976-01-31|
    FI60992B|1982-01-29|
    YU36885B|1984-08-31|
    NO139550B|1978-12-27|
    DE2534025A1|1976-02-12|
    IT1041446B|1980-01-10|
    NO752693L|1976-02-03|
    BG27063A3|1979-08-15|
    US4079768A|1978-03-21|
    ZA754954B|1976-07-28|
    HU171932B|1978-04-28|
    YU191975A|1982-06-18|
    DD121747A5|1976-08-20|
    BE831853A|1976-01-29|
    RO83408A|1984-08-17|
    JPS5245964B2|1977-11-19|
    IL47857A|1978-04-30|
    NO139550C|1979-04-04|
    AT342438B|1978-04-10|
    LU73106A1|1976-05-31|
    NL165692B|1980-12-15|
    TR19000A|1978-02-10|
    GB1522964A|1978-08-31|
    ATA594775A|1977-07-15|
    AU8352075A|1977-02-03|
    OA05074A|1981-01-31|
    FR2280519B1|1977-01-07|
    FI752195A|1976-02-01|
    AR203691A1|1975-09-30|
    BR7504905A|1976-08-03|
    SE7508545L|1976-02-02|
    JPS5137403A|1976-03-29|
    PL105621B1|1979-10-31|
    NL165692C|1981-05-15|
    ES439837A1|1977-03-01|
    EG12405A|1979-12-31|
    FI60992C|1982-05-10|
    SE414741B|1980-08-18|
    DK346775A|1976-02-01|
    CS208175B2|1981-08-31|
    IE41592B1|1980-02-13|
    DE2534025C2|1983-08-18|
    FR2280519A1|1976-02-27|
    CA1023254A|1977-12-27|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
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    DE1605617A1|1966-06-18|1970-01-08|Continental Gummi Werke Ag|Pneumatic vehicle tires|
    FR1522259A|1967-01-18|1968-04-26|Cta Cie Ind De Textiles Artifi|Pneumatic reinforced with a belt of glass filament cables and a layer of a high hardness elastomer|
    FR1558415A|1967-12-08|1969-02-28|
    GB1359465A|1970-06-20|1974-07-10|Dunlop Holdings Ltd|Pneumatic tyres|
    IT963744B|1972-08-04|1974-01-21|Pirelli|PERFECTED TIRE FOR VEHICLE WHEELS|
    JPS5211801B2|1972-08-05|1977-04-02|
    US3976115A|1974-07-18|1976-08-24|Uniroyal, S.A.|Pneumatic tire|FR2377893B1|1977-01-25|1980-04-30|Michelin & Cie|
    FR2419183B1|1978-03-10|1985-02-15|Michelin & Cie|
    DE7913756U1|1979-05-12|1979-08-30|Continental Gummi-Werke Ag, 3000 Hannover|VEHICLE AIR TIRES|
    DE3313535C2|1983-04-14|1990-08-02|Continental Aktiengesellschaft, 3000 Hannover, De|
    DE3430500A1|1984-08-18|1986-02-27|Continental Gummi-Werke Ag, 3000 Hannover|VEHICLE WHEEL|
    DE3430501A1|1984-08-18|1986-03-13|Continental Gummi-Werke Ag, 3000 Hannover|VEHICLE TIRES|
    AT387190B|1986-02-05|1988-12-12|Semperit Ag|VEHICLE TIRES|
    US4926918A|1989-02-21|1990-05-22|The Goodyear Tire & Rubber Company|Pneumatic tire|
    FR2792877A1|1999-04-29|2000-11-03|Michelin Soc Tech|TIRE PROVIDED WITH PROTUBERANCE FOR DEVITING SIDE PROJECTIONS|
    FR2800674B1|1999-11-08|2002-10-11|Dunlop Sa|HEAVY DUTY TIRE|
    US6564839B1|2000-11-01|2003-05-20|The Goodyear Tire & Rubber Company|Pneumatic tire having a load dependent adaptive footprint shape|
    DE602007011184D1|2006-10-31|2011-01-27|Kumho Tire Co Inc|Radial pneumatic tire with water guide rib|
    JP4980872B2|2007-12-20|2012-07-18|東洋ゴム工業株式会社|Pneumatic tire|
    US20210229501A1|2018-06-19|2021-07-29|Sumitomo Rubber Industries, Ltd.|Heavy duty pneumatic tire|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    FR7426701A|FR2280519B1|1974-07-31|1974-07-31|IMPROVEMENTS TO TIRE PACKAGES|
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