RU2001113683A - The method of structuring / expanding the workpiece of the safety support for the pneumatic tire and a device for its implementation (options), safety support - Google Patents

Claims (25)

1. A method of expanding at least one partially structured preform (56), designed to form in a structured and expanded state all or part of the safety support from an elastomer (5c) having a cellular structure with closed cells, the safety support (5c) being intended for installation on the mounting rim of the wheel inside the tire of a pneumatic tire, characterized in that the said support or each of such supports (5b) is vulcanized in a fluid bath (6) under excessive pressure, containing in the inner cavity of the chamber (1, 21), and the temperature of the bath (6) has a maximum value in the range from 110 ° C to 210 ° C, and the absolute pressure in the bath (6) has a value of at least equal to or greater than 5 bar, and the final value after pressure reduction, essentially equal to 1 bar, for the expansion of the preform, or each of the preforms (5b), so that the increase in the volume of these preforms is not limited by the chamber (1, 21). 2. The expansion method according to claim 1, characterized in that the absolute pressure of the fluid is varied in a discrete or continuous manner in the range between its maximum value less than or equal to 26 bar and a value less than the maximum value of this pressure. 3. The expansion method according to claim 1 or 2, characterized in that a liquid fluid is used to vulcanize the preform or each of these preforms (5b). 4. The expansion method according to claim 1 or 2, characterized in that a gaseous fluid is used to vulcanize the preform or each of these preforms (5b). 5. A method according to any one of the above items, characterized in that the bath (6) is cooled to a temperature that is less than or equal to 100 ° C, and at absolute pressure, the value of which is in the range from 1 bar to 26 bar, after vulcanization blanks, or each of these blanks (5b). 6. An expansion method according to any one of the above items, characterized in that several blanks (5b) of a linear and / or curved shape are vulcanized in the bath (6). 7. A method of structuring and expanding at least one structured and expandable workpiece (5a), which is designed to form in a structured and expanded state all or part of a safety support from an elastomer (5c) having a cellular structure with closed cells, the support (5c ) is intended for installation on a mounting rim of a wheel inside a tire of a pneumatic tire, characterized in that the structuring consists in vulcanization of expandable or expanded workpiece or each such preform (5a) in the fluid bath (6) under pressure contained inside the chamber (1, 21) so that the said or each such preform (5a) interacts with the bath (6) independently of the chamber (1, 21 ), and the temperature of the bath (6) has a maximum value in the range from 110 to 210 ° C, and the absolute pressure of this bath (6) has a value of at least equal to or greater than 14 bar, and the expansion consists in exposing structured or structured stock, or each such stock, (5 a, 5b) expansion by the method in accordance with any one of claims 1 to 6. 8. The method of structuring and expansion according to claim 7, characterized in that at the first stage, said preform and expandable preform or each such preform (5a) is subjected to said structuring to obtain an almost completely structured and expandable preform (5b), and then at the second stage, the preform mentioned above is almost completely structured and expandable, or each such preform (5b) obtained as a result of the first stage, rhenium to obtain all or part of the corresponding structured and extended safety support (5c). 9. The method of structuring and expansion according to claim 7, characterized in that at the first stage, said preformable and expandable preform or each such preform (5a) is subjected to said expansion to obtain a structured and almost completely expanded preform, and then, at the second stage , subject to the mentioned structured and almost completely expanded preform or each such preform mentioned structuring to obtain all or part of the corresponding structures the extended and extended safety support (5c). 10. A device for vulcanization, intended for the implementation of the method of structuring and expansion according to any one of claims 7 to 9, containing a chamber (1) provided with at least one hole (2, 3) for introducing and removing said preform or each such preform (5a, 5c), by means of receiving (25) of said preform or each such preform (5a), by means of filling (23) of the chamber (1) with liquid or gaseous fluid and means of heating (16) and creating pressure (15) fluid contained inside the chamber (1), distinctively the fact that the chamber (1) contains an introduction compartment (7), provided in its inlet with an opening (2) intended for insertion into this compartment (7) of a set (4) of structured and expandable blanks (5a) for their vulcanization, moreover, the introduction hole (2) is provided with means for overlapping it (2), a vulcanization compartment (8) made behind the introduction compartment (7) and provided in its input part with a first movable partition (9) intended to establish communication of this compartment with the introduction compartment ( 7), moreover, the vulcanization compartment (8) is intended Intended for containing heated and pressurized fluid to obtain a set (4) of structured and expanded blanks (5b), an extraction compartment (10), made behind said vulcanization compartment (8), equipped with a second movable partition in its inlet part (11) designed to establish the communication of this compartment with the vulcanization compartment (8) and provided with an opening (3) in its outlet part to establish its communication with atmospheric pressure for extracting from the chamber (1) a set (4) structured and expanded wafer blanks (5c), moreover, the extraction hole (3) is provided with means (3a) designed to block it, and means (12) designed for alternating transfer of fluid under excessive pressure from the extraction compartment (10) to the introduction compartment (7) and back from the insertion compartment (7) to the extraction compartment (10). 11. The device for vulcanization, intended for the implementation of the method of structuring and expansion according to any one of claims 7 to 9, containing a chamber (21), equipped with means for introducing and removing said preform or each such preform (5a, 5c), receiving means (25) said preform or each such preform (5a, 5c), by means of filling (23) the chamber (21) with liquid or gaseous fluid, and means of heating and pressurizing the fluid contained within the chamber (21), characterized in that the chamber (21) supply ene several receiving means (25) mounted adjacent to each other on the channel (23) intended for filling the fluid chamber (21) and extends inside this chamber. 12. The device for vulcanization according to claim 11, characterized in that the chamber (21) contains an output channel associated with means for creating a circulation of fluid in the direction of the filling means (23) of this chamber (21). 13. A device for vulcanization, designed to implement the method of structuring and expansion according to any one of claims 7 to 9, containing a chamber (1) provided with at least one hole (2), intended for the introduction and extraction of the aforementioned workpiece or each such workpiece ( 5a, 5c), by means of receiving said preform or each such preform (5a, 5c), by means of filling (13) of chamber (1) with liquid or gaseous fluid and heating means (16), and creating pressure of this fluid contained within said chamber (1) characterized in that the filling means (13) of the chamber (1) is made in the form of a channel opening into the hole (14) of the chamber (1), moreover, this channel (13) is provided with means (15) that can be tightly sealed inside the wall surface of this channel to create pressure of the fluid contained inside the chamber (1), and this channel (13) is also configured to empty the chamber (1), while the means of heating (16) of the fluid are installed around the chamber (1) and around channel (13). 14. A safety support (5c) or a support portion (5c) intended for a pneumatic tire obtained by using the method according to any of claims 7 to 9, said support or a portion of such support (5c) made of a structured and expanded rubber composition, having a cellular structure with closed cells, and this support (5c) is designed to be mounted on the mounting rim of the wheel inside the tire of the pneumatic tire, characterized in that it contains, from the inside in the radial direction from its outer surface, an intermediate layer d (B), the thickness of which has a value in the range from 5% to 30% of the smallest cross-sectional area of the section (5c) and whose density is less than the density of the core (C) of the section (5c). 15. A support or a portion of a support (5c) according to claim 14, characterized in that it has a maximum density in the surface layer (A) at the location of its outer surface and outside in the radial direction from the intermediate layer (B). 16. A support or a portion of a support (5c) according to claim 14 or 15, characterized in that it has an average density in the range from 0.04 to 0.4. 17. A support or a portion of a support (5c) according to claim 16, characterized in that it has an average density substantially of 0.13. 18. A support or a support portion (5c) according to any one of claims 14-17, characterized in that the respective cell diameters vary on average in the range from 0.1 mm to 2 mm in the cross section of the support or its portion (5c). 19. A support or a support portion (5c) according to any one of claims 14-18, characterized in that it is made of one or more blanks (5a), each of which is made on the basis of a copolymer of isoprene and isobutylene. 20. A support or a support portion (5c) according to any one of claims 14-19, characterized in that it contains as a reinforcing filler a mixture containing from 10 pc to 30 pc of silicon dioxide and from 10 pc to 30 pc of carbon black. 21. A support or a support portion (5c) according to any one of claims 14 to 20, comprising a base (30, 40) intended to be mounted on a mounting rim of a wheel, and a ridge (31, 41) designed to abut a pneumatic tread track tires in the event of a pressure drop inside this pneumatic tire, characterized in that it contains at least one longitudinal groove (32) located on the ridge (31) of this support substantially perpendicular to it and in the direction of the length of the support or portion of the support (5c). 22. A support or a portion of a support (5c) according to any one of claims 14 to 20, characterized in that it comprises at least one longitudinal recess (42) in its mass, which extends in the direction of the length of the support or portion of the support (5c). 23. Support (5c) according to any one of paragraphs.14-22, characterized in that it has a substantially toroidal shape. 24. The support section (5c) according to any one of claims 14 to 22, characterized in that it has essentially the shape of a torus section. 25. Landing support (5c) according to any one of paragraphs.14-22, characterized in that it has a substantially linear shape.