1. Field of the Invention
This invention relates generally to methods and an apparatus for curing retreaded tires, and more particularly, to methods and an apparatus for maintaining treads in a desired arrangement relative a tire carcass during tire retreading operations.
2. Description of the Related Art
Retreaded tires are commonly manufactured by affixing a new tread atop an existing tire carcass. A curing process is performed to secure the tread to the carcass. In preparation for the curing process, a curing membrane or envelope is arranged about the tread to maintain the tread in a desired position atop the tire carcass and to create a seal between the retreaded tire assembly and the curing membrane. A bonding layer may be interposed between the tread and the tire carcass to promote bonding. The area between the curing membrane and the tread is then placed under vacuum pressure to substantially remove the air between the curing membrane and the tire assembly. The retread tire assembly with curing membrane is placed within a curing chamber, which often referred to as an autoclave, to bond the tread to the tire carcass, where the membrane-covered assembly is exposed to heat and pressure according to a desired curing law.
However, voids arranged along an outer, ground-engaging surface of the tread, such as circumferential grooves, may tend to close as the tread is exposed to the vacuum pressure and/or curing pressure. Another problem arises when the bottoms of the same grooves, when thin, may deform and raise upwardly into the groove due to their exposure to vacuum forces and/or due to the tread width compressing laterally during the curing process. This can also reduce void volume and alter the form of the void, which may also create non-uniformities below the tread. This compression problem is compounded when bonding material becomes more malleable or fluid as the assembly is heated during the curing process. Another issue compounding this situation is when a portion of the tread is uncured since the uncured tread may also become more malleable or fluid when the assembly is heated during the curing process.
Therefore, there is a need to better maintain the shape and volume of the voids arranged along an outer, ground-engaging surface of the tread. There is also a need to better stabilize and maintain the shape and arrangement of the tread and/or maintain the curing membrane positionally relative the tread.
Particular embodiments of the present invention include methods and apparatus for stabilizing the process of retreading a tire carcass. Such methods include the steps of providing an annular tire carcass configured for receiving a tread. Such methods also include the step of arranging a tread annularly about the precured tire carcass in a desired position to form an assembled retreaded tire. Such methods further include the step of arranging a retread curing membrane about an outer side of the tread, the curing membrane including an interior surface arranged to engage the outer side of the tread and including one or more protrusions extending from the membrane interior surface and into a void of the outer side of the tread.
Particular embodiments of such apparatus include a retread membrane for use in retread tire curing operations. Such apparatus includes the membrane being configured for arrangement about a tire tread arranged about a tire carcass, the retread membrane includes an annular body comprising a length extending in an annular direction, a width extending laterally, a thickness extending between outer and inner surfaces of the annular body, and one or more tread-engaging protrusions extending inwardly from the inner surface for engagement with a tread void.
The foregoing and other objects, features and advantages of the invention will be apparent from the following more detailed descriptions of particular embodiments of the invention, as illustrated in the accompanying drawings wherein like reference numbers represent like parts of the invention.
Particular embodiments of the present invention provide methods and apparatus for maintaining the shape and volume of a void positioned along a tread outer surface, constraining the tread in a desired arrangement relative the tire carcass (i.e., tire casing), and/or constraining the curing membrane in a desired arrangement relative the tire tread when forming a retreaded tire. By employing such methods and apparatus, the shape, volume, and arrangement of voids positioned along the tread outer surface are better maintained. Because of this, the width of the tread may be better maintained when the shape and/or volume of the voids are generally preserved and stabilized. In particular embodiments, such methods and apparatus maintain the tread grooves in an open arrangement and/or in a desired open shape. Further, such methods and apparatus help to maintain a bottom of any such groove in a desired arrangement, such as to generally prevent any substantial lifting, rising, or deflection of the bottom. Such methods and apparatus may also better maintain the alignment of the curing membrane relative the tire tread and/or carcass during the retreading operations.
Such methods may comprise methods for retreading a tire carcass, which may comprise a variety of steps. In particular embodiments, such methods include the step of providing an annular tire carcass configured for receiving a tread. During retreading operations, an existing, a tire is typically prepared by removing at least a portion of the original tread from the tire through an abrading or buffing operation. The remaining portion of the tire is generally referred to as the tire carcass. For example, the tire carcass generally includes a pair of opposing sidewalls each extending radially outward from a bead to a tread portion extending laterally between the sidewalls. It is generally understood that the tire carcass is previously manufactured, that is, previously molded and cured. Any desired tread and tire carcass may be employed. An exemplary tire tread and tire carcass are discussed further below with reference to the figures.
Further steps of such methods may include the step of arranging a tread annularly about an outer circumference of the tire carcass in a desired position to form an assembled retreaded tire, the tread including a recessed void arranged along an outer surface of the tread. Tire retreading generally comprises placing a new tread on the pre-existing tire carcass. The new tread may be molded, and at least a portion thereof fully or partially cured prior to its application upon a tire carcass. Prior to applying the tread to the tire carcass, a bonding material may be arranged between the new tread and the tire carcass to promote adhesion there between. The bonding material may comprise any known material suitable for its intended purpose of for bonding the new tread to the tire carcass. For example, the joining material may comprise an adhesive or material curable by way of vulcanization, such as natural or synthetic rubber or any other elastomeric and/or polymeric material, which is commonly referred to as liaison rubber or cushion gum.
Particular embodiments of such methods may include the step of arranging a retread curing membrane about the outer side of the tread, the curing membrane including an interior surface arranged to engage the outer side of the tread, where a protrusion is arranged within the recessed void of the tread outer side, between the membrane interior surface and the recessed void. A variety of curing membranes is currently employed in the industry and may be employed by the invention. Generally, a curing membrane includes an outer body, shell, or membrane having a tread portion extending annularly to circumscribe the tread. The body includes a thickness and extends widthwise in a lateral or axial direction. The widthwise extension at least extends the full width of the tread. In particular variations, the width of the body may extend further for the purpose of extending further about the tire carcass. The body may comprise one or more sections to achieve its purpose of covering the outer tread surface and becoming sealed to create an interior pressurization compartment between the tread and the curing membrane. Ultimately, the pressurization compartment is placed under vacuum pressure during retread curing operations.
The outer body includes an inner surface arranged to engage an outer surface (i.e., the ground engaging surface) of the tread. In particular embodiments, the inner surface of the curing membrane tread portion includes one or more protrusions extending outwardly from the membrane inner surface. The one or more protrusions are also configured to extend into a void arranged along the outer side of the tread. The protrusions allow the tread void to remain open and maintain its shape to prevent a substantial reduction in the volume of such void and to prevent any substantial deformation of the void. It is understood that the addition of the one or more protrusions to an inner surface of the tread portion of a curing membrane body may be added to any known curing membrane known by one of ordinary skill in the art. An exemplary retread curing membrane is discussed below in conjunction with the figures filed herewith.
While the protrusion may be integral with the curing membrane interior surface, in other embodiments, the one or more protrusions the protrusion forms an annular member independent of the curing membrane, the annular member forming an insert arranged between the curing membrane and the tire tread. This allows the use of the protrusions without having to modify an existing curing membrane or having to purchase a new curing membrane. In more specific embodiments, the protrusions form separate bands or rings each arranged within a circumferential groove of the tread. In yet other embodiments, the one or more protrusions being integral with an outer membrane arranged along the outer surface of the tread, the outer membrane and the one or more protrusion forming an insert arranged between the curing membrane and the tire tread. The insert could be a continuous band extending the full length of the tread or less, such as when the insert is elastic and therefore expandable. The insert could also comprise a discontinuous band formed of separate, independent segments. The insert could also have features extending laterally to engage lateral voids or features of the tread.
Prior to curing the retreaded tire, these methods may include the step of forming a vacuum within the curing membrane after performing the step of arranging the retread curing membrane about the outer side of the tread. Upon performing this step, the protrusions are drawn or pulled into the voids as air is removed from the void, assuming the protrusions are not otherwise sized to extend to a bottom of the recessed void originally upon installation. This permits the protrusions to further access each void and/or to better fill the volume of the recessed void for the purpose of maintaining the void as pressure is applied to the tire tread during retread curing operations.
To form a retreaded tire, the assembled retreaded tire having an uncured bonding layer must be cured to bond the new tread to the tire carcass. Any method known in the art may be employed to cure the retreaded tire assembly to form a retreaded tire. For example, the assembled retreaded tire may be arranged within a curing chamber known as an autoclave, where the tire is at least partially surrounded by air or other fluids heated and pressurized according to desired curing formulas or laws. Accordingly, particular embodiments of methods for tire retreading further include the step of placing the assembled retreaded tire with the curing membrane arranged thereabout into a curing chamber.
It follows that such methods comprise the additional step of curing the retreaded tire within the curing chamber. This may include applying pressurized and heated fluids about the tire, or at least about an outer side of the assembled retreaded tire. This may also include expanding a curing bladder, such as by filling the curing bladder with a heated, pressurized fluid, within a central cavity of the tire carcass. Other variations may be employed based upon the curing system or method employed. In particular embodiments, for example, the uncured, assembled retreaded tire is placed at least partially within the curing membrane or envelope for at least curing operations within a curing chamber. The curing membrane generally engages the outer side or surface of the tire carcass and tread, to form a skin-like member thereon at least extending circumferentially about the tire and laterally between opposing sidewalls and about the tread of the assembled tire. Any known membrane known in the art may be used. For example, one such membrane extends around the entire tire—circumferentially and laterally. By further example, the tire may be mounted on a wheel while a membrane extends from sidewall to sidewall about the tread. Regardless of the membrane employed, a compartment is generally formed between the membrane and the tire (tread and/or tire carcass), which may be pressurized as desired during curing operations. Accordingly, such methods may include the step of inserting the assembled retreaded tire into the flexible curing membrane, the membrane engaging at least a portion of the outer side of the retreaded tire, wherein the one or more protrusions may translate in a radial direction into the void, engage an interior surface of the void, or engage a bottom surface of the void.
Exemplary embodiments of a retread curing membrane for use in performing such methods of retreading a tire carcass are discussed in further detail below. The device(s) shown in the figures are only exemplary of any of a variety of retread curing membrane that may be employed within the scope of this invention.
As discussed above, a retread tire curing membrane is used to arrange and attach a tire tread to a precured tire carcass. Curing membranes may also be referred to as curing envelopes within the industry. With reference to
Improvements to retread tire curing membranes will now be discussed with reference to
With reference to the embodiment shown in
Improvements to curing membranes include positioning one or more tread-engaging protrusions (i.e., ribs) along an inner surface of the membrane for extension into a tread void. The addition of the protrusions offers various benefits, such as assisting to maintain the tread voids in an open arrangement during curing operations. This aids in maintaining the void shape and volume to thereby reduce any lateral or circumferential compression of the tread. This is accomplished by placing the protrusion within the recessed tread void, where the width of the protrusion at least partially maintains the recessed tread void in an open arrangement (i.e., an arrangement whereby the recessed void does not substantially close or collapse as the pressure increases about the tread during retreading operations. While the protrusions may not be substantially arranged to contact the bottom of the recessed tread void, the protrusion may ultimately contact the bottom of the recessed tread void as the curing membrane expands or stretches when the area between the tread and the curing membrane is placed under vacuum pressure. This causes the protrusions to be pulled into the recessed tread void. By reducing lateral compression of the void, local translation of the tread relative the tire carcass is also reduced. Yet another benefit includes engaging the bottom of any tread void to assist in resisting any deformation or buckling of a bottom of the void. Yet another benefit of the protrusions includes maintaining the curing membrane in a desired arrangement relative the tread.
With reference to
Said protrusions 20 are generally sized, shaped, and arranged to extend into a void 36 arranged along the tread outer surface 34s,o when the curing membrane 10 is installed or arranged about the retreaded tire assembly. Accordingly, the size, shape, and arrangement of the protrusions 20 may depend, at least in part, upon the voids 36 arranged within the tire tread outer surface 34s,o about which the curing membrane will be installed. As curing membrane 10 is typically constructed of an elastic material, including elastomeric, polymeric, natural or synthetic rubber, protrusions 20 may be formed of like material. Still, in other variations, it is appreciated that protrusions 20 may be formed of any other desired, non-elastic material. Accordingly, protrusions 20 may be formed separately and subsequently affixed to curing membrane 10 or may be formed monolithically with curing membrane.
As discussed above, a void 36 may comprise any tread void, including a groove. For example, with reference to
With further regard to the lengthwise extension of protrusions 20, with reference to
Each protrusion 20 has a cross-sectional shape, which extends perpendicular to a lengthwise extension of said protrusion. With reference to
It is also appreciated that the protrusion may comprise a solid mass extending from tread portion 18, such as is represented by the embodiment of
As stated above, with reference to
Also stated above, with reference to
As suggested above, the tire tread 34 and carcass 30 may be bonded together according to any known method to form a cured retreaded tire. In one example, with reference now to
While protrusions may be formed along the interior side of a curing membrane, in other embodiments, the protrusions are independent of the curing membrane and instead form an insert positioned between the curing membrane and the tire tread. For example, with reference to
With reference now to the embodiment shown in
While this invention has been described with reference to particular embodiments thereof, it shall be understood that such description is by way of illustration and not by way of limitation. Accordingly, the scope and content of the invention are to be defined only by the terms of the appended claims.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US11/54399 | 9/30/2011 | WO | 00 | 3/28/2014 |