巴西专利BR102014006066B1 FIXATION PROCESS OF AN ELASTOMERIC TUBE INSIDE AN ANNULAR FURROW

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专利摘要:
pneumatic incorporating external concavity containing junction tube. in general terms, the invention relates to a rubber tire incorporating an annular outer pocket containing a flexible tube bonded to the walls of the pocket.
公开号:BR102014006066B1
申请号:R102014006066-9
申请日:2014-03-14
公开日:2021-09-08
发明作者:Carolin Anna Welter；Dinesh Chandra；Robert Leon Benedict
申请人:The Goodyear Tire & Rubber Company；
IPC主号:

专利说明:

[001] This application claims the benefit of US Provisional Application No. 61/790227, filed March 15, 2013.
[002] This invention was developed under US government sponsorship contract number DE-EE0005447 awarded by the Department of Energy. The US government has certain rights with respect to this invention. Field of Invention
[003] In general terms, the invention relates to a tire made of rubber incorporating an annular groove in its flank which contains an annular flexible tube inside and in junction with the walls of the groove. Fundamentals of the Invention
[004] The normal diffusion of air through the walls of a rubber tire reduces the pressure in the tire within the tire's internal cavity over time. For this invention, there is the provision of a circular annular groove in the tire sidewall, which contains a flexible tube (for example, rubber) being fixed inside the groove incorporating a rubber coating where the tube acts to pump atmospheric air into the tire cavity helping to provide (for example, maintenance) of air pressure in the tire inner cavity by alternating (for example, sequential segments) of the pressure given inside the tube by flexing the tire in service , such as during vehicular tire operation. Summary and Practice of the Invention
[005] According to this invention, there is the provision of a rubber tire containing a pneumatic cavity, consisting of a tread of outer circumference, with distanced bead portions, and two flanks individually connecting said portions of bead with the periphery of said tread and the support carcass of said tread and flanks, at least one of said flanks (the expression flank is intended to include the tire flank incorporating an anti-friction component of the tire extending outwardly from the bead portion) containing at least one annular groove on its outer surface, said groove containing an annular elastomeric tube within said groove, the tube being secured within the said groove containing a rubber coating contained in said groove communicating with (contacting) both the wall of said groove and said tube.
[006] In practice, said groove is intended to be an exclusive adhesion component (does not contain) in addition to said rubber coating itself (e.g., an exclusive adhesion RFL such as, for example, the cyan-based adhesive of acrylate, and, for example, an adhesive based on tetrahydrofuran) for fixing said tube within said groove.
[007] In practice, an optional rubber coating strip is provided to assist in fixing the tube inside the groove, with the coating strip shortening the opening of the groove in the sidewall of the tire containing the rubber coated tube.
[008] In practice, the tire sidewall groove deforms through the curvature into a partially dismountable and partially expandable shape, compressing and decompressing in alternation the tube contained within the groove leading to an autogeneous pumping action. occur as a result of the pumping of atmospheric air into the tire's pneumatic cavity.
[009] In practice, the tire flank groove comes to deform in a peristaltic manner generating an air pumping action.
[010] The word peristaltic refers to an operation by means of wave-shaped contractions promoting the propulsion of the contained matter, such as air, along the paths of the tubular path. The word autogeneous, or in autogeneous mode, refers to an event that inherently comes to occur via an operational activity.
[011] In one embodiment, the tube desirably contains a valve to enable the flow of atmospheric air into the tube when it is necessary to maintain proper tire inflation and a valve to control the flow of air from the tube to the inside of the tire cavity as the pumping takes place through the undulation of the tube contained in the groove caused by the flexing of the tire sidewall during the tire rotation.
[012] Still further, according to this invention, there is a process of clamping an elastomeric tube inside an annular groove contained in an outer flank of a cured tire comprising the steps of: (A) cleaning the walls of said groove for the removal of a non-stick coating contained in the groove walls (non-stick coating agent, such as, for example, a silicone-based composition previously applied to the tire surface to facilitate the release of the tire from the surface of its mold inside which the tire is cured under conditions of high pressure and heat). It should be appreciated that such cleaning of the groove flanks can be carried out, for example, at least by means of abrasion (e.g., by grinding the surface) or by means of cleaning by means of organic solvent). (B) application of an uncured sulfur curable liquid rubber coating to the groove surface (eg, thin coating on groove walls). (C) positioning said tube within the uncured liquid rubber lined groove in contact with and between said tube and the groove surface (e.g. in a way that the rubber groove contacts and communicates with the surfaces of both the tube and the groove wall, (D) applying an additional coating of said uncured liquid rubber to an exposed surface of the tube contained within the groove, and (E) curing the non-sulphur curable liquid rubber -cured by fixing the tube inside the groove;
[013] wherein said sulfur curable liquid rubber consists of: (1) elastomeric composition based on dienes, of low fluid viscosity (for example, having a low enough viscosity to flow conveniently towards the wall and coat the wall of the groove by suitable mechanisms), or (2) organic solvent solution (eg cement) consisting of an organic solvent and a rubber composition based on dienes (wherein said rubber composition may eventually consist of a diene-based elastomer with high and low viscosities),
[014] wherein said rubber composition is cured by curing by sulfur.
[015] Sulfur curing can be conducted at an elevated temperature or at a lower temperature through the inclusion of additives to promote curing by sulfur at low temperatures.
[016] In one modality, the groove consists of an annular groove on the tire sidewall.
[017] In one embodiment, the rubber composition of the rubber coating may contain calcium oxide (for example, to promote drying of the rubber composition that may contain moisture, such as, for example, atmospheric moisture).
[018] In one embodiment of such a process of this invention, a coating strip of a rubber composition containing vulcanizable sulfur elastomer-diene comes to be applied over the groove containing liquid rubber coated tube in order to: (A ) shorten the opening close to the annular groove and thus contact the sidewall surface of the tire, (B) contact the rubber coating on the tube,
[019] being that the combination of the coating strip and the rubber coating contained in the tube and the walls of the annular groove and the tube in contact with the coating strip is co-cured together for the fixation of the tube inside of the annular groove. Brief Description of Accompanying Drawings
[020] FIG. 1 depicts a perspective view of a tire incorporating an annular groove in its flank where an annular flexible tube is to be inserted.
[021] FIG. 2 depicts the tire of Figure 1 incorporating the flexible tube inserted into the annular groove in its sidewall.
[022] FIG. 3 is a partial cross-sectional view of the tire of FIG. 1 detailing the flexible tube inserted into the annular groove.
[023] FIG. 4A is a partial cross-sectional view of the tire of FIG. 1 incorporating the flexible tube being positioned to be placed in the annular groove where the annular groove contains a liquid rubber within the groove.
[024] FIG. 4B is a partial cross-sectional view of FIG. 4A incorporating the flexible tube positioned in the annular groove in a manner so as to displace a portion of the liquid rubber and cause the displaced liquid rubber to flow between the outer surface of the flexible tube and the groove walls securing the tube within the groove.
[025] FIG. 4C depicts the tube trapped inside the groove by liquid rubber.
[026] FIG. 4D depicts the tube being compressed during a tire operation.
[027] FIG. 5A depicts a layer of rubber lining the groove opening.
[028] FIG. 5B depicts a layer of rubber positioned within the groove to line the groove opening. in the drawings
[029] In FIG. 1, there is the provision of a prospective view of a cured tire (1) installed on a rigid rim (4) with a circumferential tread (2) and flank (8) containing an exposed and open annular groove ( or circular) (9) on the outer surface of its flank (8) within which a cured, curable annular (or circular) elastomeric tube (3) containing a wall (7) for defining a cavity within the tube (not shown or numbered in this Figure) is inserted where the tube (3) incorporates a regulator, such as, for example, a valve (5) to enable air to enter the tube when maintenance of proper tire inflation is required. , called (T inlet) and a regulator, such as a valve (6) enabling the air to exit from the tube, and eventually into the tire cavity, called (T out). The regulators (5) and (6) can be combined, positioned together or spaced apart from each other.
[030] In FIG 2, a side elevation view of the cured tire (1) is shown with the tube (3) contained in the open annular groove (9) incorporated in its outer and exposed side of the tire (8).
[031] In FIG 3, an enlarged partial cross-sectional view of a lower portion of the tire (1) is shown illustrating the open groove (9) containing the cured elastomeric tube (3), shown with its wall (7) where the tube (3) comes to be inserted into the groove (9) through the groove opening (10).
[032] In FIG 4A, there is a presentation of an enlarged view of FIG. 3 being inserted showing the open groove (9) in the tire flank (8) containing an uncured liquid curable rubber reservoir (11) within the flanks (9) of the open groove (3) with the curable hollow elastomeric tube, uncured (3) with the tube wall (7) defining its internal cavity (unnumbered) being inserted into the open groove (3) through its groove opening (10).
[033] In FIGS 4B and 4A there is still the illustration of the tube (7) having been inserted into the open groove (3) for displacement of a portion of the non-cured liquid durable rubber reservoir causing it to flow between the sides of the tube (7) and the walls of the groove (3) thereby partially embedding (or partially covering) the tube (3) within the groove (9).
[034] In FIGS 4(C) and FIG 4B, there is also the illustration of the addition of additional liquid rubber next to the groove (3), causing the tube to be surrounded by liquid rubber inside the groove ( 3). In one embodiment, the liquid rubber is cured to form an elastomeric rubber for securing the elastomeric tube (7) within the groove (9).
[035] In FIGS. 4(D) and 4C, there is also the illustration of the liquid rubber cured to form an elastomer for fixing the tube (3) inside the groove (9) in which the wall (7) of the tube (3) was to have been compressed (12, 13), closing the inner tube cavity (not numbered) by flexing the tire flank (8) initiating a pumping action of the tube (3) to pump air from the outside of the tire (1) to the internal air cavity of the tire through the regulator and valve mentioned above as a function of the flexing of the tire flank during its rotation.
[036] In FIGS. 5(A) and 4(C), there is also an illustration of a rubber layer (14) applied over the opening (10) of the groove (3) to additionally fix the tube (3) in the inside the groove (3) where the rubber layer (15) overlaps a portion of the tire sidewall (8).
[037] In FIGS 5(B), 5(A), there is also an illustration of the rubber layer (15) coming to be adjusted inside the groove (3) to join the sides (9) of the groove (3 ) without overlapping the tire sidewall (8).
[038] In the form of a partial summary of several embodiments of the invention, there is a method of manufacturing a tire being provided consisting of the following steps: (A) provision of a tire having a groove on its flank, (B) application of a liquid rubber coating along the groove wall, (C) insertion of a flexible tube into the groove, (D) application of a liquid rubber coating to the tube inside the groove, (E) heating the groove and the tube to cure the applied rubber coatings.
[039] In one embodiment, such a method is provided with said liquid rubber coating containing calcium oxide.
[040] In one modality, such a method is provided by using a heated plate to cure the rubber coating applied in the groove.
[041] In one embodiment, such a method is provided in which an uncured rubber lining strip is applied over the groove for the containment of the liquid rubber tube and linings.
[042] In one embodiment, such a method is provided in which the tire consists of a cured rubber tire containing said groove in its flank.
[043] In one embodiment, such a method is provided wherein the tire consists of an uncured rubber tire containing said groove in its flank.
[044] Variations in the present invention are possible in view of its description provided via this descriptive report. While certain representative examples and details have been presented for illustrative purposes of the present invention, it is evident to the technical expert in the field that various changes and modifications can be made without departing from the scope of the present invention. Therefore, it should be understood that changes can be made to the particular examples described fully inserted within the intended scope of the present invention, defined in accordance with the appended table of claims.

权利要求:
Claims (5)
[0001]
1. Process of fixing an elastomeric tube (3) inside an annular groove (9) contained in a side (8) of a tire (1), the elastomeric tube defining a passage for air from the outside of the tire ( 1) to be pumped into the internal air cavity of the tire (1), the process CHARACTERIZED by the fact that it comprises the steps of: (A) cleaning the walls of said groove to remove a non-stick coating contained in the walls of the groove, (B) applying a rubber coating comprising a low fluid viscosity, diene-based elastomeric composition or an organic solvent solution comprising an organic solvent and a diene-based rubber composition to a groove surface or a tube surface; (C) positioning of said tube (3) within the groove (9) with said interposed rubber coating and thereby being in contact with said tube (3) and the groove wall, (D) application of the coating additional rubber on an exposed surface of the tube contained within the annular groove, and (E) curing the rubber liner to secure the tube (3) within the groove (9); wherein the rubber coating is cured by sulfur curing or by chemical curing by means other than sulfur curing.
[0002]
2. Process according to claim 1, CHARACTERIZED by the fact that it further comprises cleaning the walls of said groove (9) before step (B) or (C) to remove a non-stick coating contained in the groove walls.
[0003]
3. Process according to claim 1 or 2, CHARACTERIZED by the fact that it further comprises applying additional rubber coating on an exposed surface of the tube (3) contained within the groove (9) before step (C) or before of step (B).
[0004]
4. Process according to any one of claims 1 to 3, CHARACTERIZED by the fact that the coating strip (14, 15) of a preferable vulcanizable sulfur elastomer-diene is applied over said groove (9) which contain the tube (3) and rubber liner in order to: (A) shorten or seal the opening (10) to the groove (9) and to contact the sidewall surface (8) of the tyre; and/or (B) contacting the rubber liner on the tube (3) or groove (9); wherein the combination of the coating strip (14, 15) and the rubber coating contained in the tube (3) and groove walls and in contact with the coating strip (14, 15) are co-cured together to secure the tube (3) inside the groove (9).
[0005]
5. Process according to any one of claims 1 to 4, CHARACTERIZED by the fact that a heated plate is used to cure the rubber coating in the groove (9).

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同族专利:

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

GB1086512A|1964-02-24|1967-10-11|Ronald Leslie Sheppard|Improvements in or relating to pneumatic tyres|

US5314741A|1992-10-07|1994-05-24|The Goodyear Tire & Rubber Company|Rubber article having protective coating|

JP2002030187A|2000-07-18|2002-01-31|Yokohama Rubber Co Ltd:The|Rubber laminate and pneumatic tire obtained using the same|

AU2003218055A1|2002-03-08|2003-09-22|Lord Corporation|Flexible coatings for elastomer substrates|

JP4965822B2|2005-06-09|2012-07-04|株式会社ブリヂストン|Wet masterbatch rubber composition and tire|

CZ303718B6|2006-05-23|2013-04-03|Sithold S.R.O.|Retentivity component for adjusting pneumatic tyre pressure and process for producing thereof|

JP5278127B2|2008-06-02|2013-09-04|横浜ゴム株式会社|Pneumatic tire|

JP2010275353A|2009-05-26|2010-12-09|Bridgestone Corp|Rubber composition and pneumatic tire using the same|

JP5405250B2|2009-09-17|2014-02-05|東洋ゴム工業株式会社|Rubber composition, method for producing the same, and pneumatic tire|

US8042586B2|2009-12-21|2011-10-25|The Goodyear Tire & Rubber Company|Self-inflating tire assembly|

US8113254B2|2009-12-21|2012-02-14|The Goodyear Tire & Rubber Company|Self-inflating tire|

US8381785B2|2010-05-07|2013-02-26|The Goodyear Tire & Rubber Company|Self-inflating tire assembly|

US8381784B2|2011-07-08|2013-02-26|The Goodyear Tire & Rubber Company|Air maintenance pumping assembly and tire|

US20130061996A1|2011-09-08|2013-03-14|Andres Ignacio Delgado|Air maintenance pumping assembly and tire|

US9045005B2|2012-12-06|2015-06-02|The Goodyear Tire & Rubber Company|Air maintenance pumping assembly and tire|US5655961A|1994-10-12|1997-08-12|Acres Gaming, Inc.|Method for operating networked gaming devices|

US7794322B2|2001-09-28|2010-09-14|Igt|System for awarding a bonus to a gaming device on a wide area network|

US7727070B2|2001-09-28|2010-06-01|Igt|Method and apparatus for authenticating and verifying communication on a network of gaming devices|

EP1864701B1|2005-03-31|2014-05-21|Sega Corporation|Game device, and fraud detecting method for the game device|

US10239368B2|2014-12-11|2019-03-26|The Goodyear Tire & Rubber Company|Air maintenance tire and valve assembly|

US20160375731A1|2015-06-29|2016-12-29|The Goodyear Tire & Rubber Company|Air maintenance pumping assembly and tire|

US10017016B2|2015-08-03|2018-07-10|The Goodyear Tire & Rubber Company|Inlet air passage screw assembly for an air maintenance tire|

US10023016B2|2015-08-03|2018-07-17|The Goodyear Tire & Rubber Company|Outlet screw assembly for an air maintenance tire|

US10093136B2|2015-10-30|2018-10-09|The Goodyear Tire & Rubber Company|Air maintenance tire pumping tube cover strip|

US10449813B2|2016-01-29|2019-10-22|The Goodyear Tire & Rubber Company|Air maintenance tire|

US20170217263A1|2016-01-29|2017-08-03|The Goodyear Tire & Rubber Company|Air maintenance tire|

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FR3060443A1|2016-12-16|2018-06-22|Compagnie Generale Des Etablissements Michelin|MOLD FOR THE VULCANIZATION OF A TIRE|

法律状态:
2015-10-06| B03A| Publication of a patent application or of a certificate of addition of invention [chapter 3.1 patent gazette]|

2018-11-13| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2019-12-10| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2021-02-09| B06A| Patent application procedure suspended [chapter 6.1 patent gazette]|

2021-08-17| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2021-09-08| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 14/03/2014, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

US201361790227P| true| 2013-03-15|2013-03-15|

US61/790,227|2013-03-15|

US14/168,235|2014-01-30|

US14/168,235|US9259975B2|2013-03-15|2014-01-30|Tire with outer groove containing bonded tube|

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