LU100179B1 - Tire with spare inner tube - Google Patents

Abstract

The invention relates to a wheel (1) of a motor vehicle comprising a rim (3) with a hollow transverse profile forming a rim base (9), a tire (5) of the tubeless type mounted on the rim (3), and an air chamber (7) with a wall (8) O-ring disposed against the rim bottom (9), and which is intended to be inflated when the tire (5) undergoes a puncture. The wheel (1) further comprises a fastening system (11) of the wall (8) of the air chamber (7) at the bottom of the rim (9). This fastening system (11) is configured so as to allow progressive disengagement of said wall (8) as the air chamber (7) is inflated after a puncture

Description

TIRE WITH EMERGENCY AIR CHAMBER

The present invention relates to the field of tires for motor vehicles and more particularly to tires capable of functioning even after perforation thus allowing the driver of the vehicle to travel a significant distance before repairing or replacing the tire.

Although conventional vehicle tires are grouped into two major groups namely, tubeless tires, also known as tubeless tires, and tubular tires, also referred to as "tube-type", it does not the fact remains that most modern vehicles are actually equipped with tubeless tires. The advantage of the absence of air chamber actually improves the road performance of the tire, and simplifies all the more its maintenance and repair. However in case of puncture, such tubeless tires are also subject to a sudden drop in tire pressure which causes the need to replace them without delay. In addition to the fact that this requirement therefore necessitates having a spare tire in the vehicle, and therefore indirectly also causes a loss of space, the replacement of the damaged tire itself is a constraint and can be dangerous in certain circumstances. in particular if it takes place on a busy lane with no escape route. Ideally, the driver should be able to reach home or a nearby repair location by continuing to drive without having to intervene directly on the wheel-tire assembly.

Faced with this very old problem, tire manufacturers have developed a wide range of solutions. However the proposed solutions are more likely to limit the risk of puncture than to allow the user to travel a significant distance before repairing or replacing the tire. This is the case of tires called flat run, more commonly called "runflat" and described for example in patent US6688354, which consist of reinforced sides to prevent their collapse in case of puncture. Unfortunately this type of reinforcement also has the consequence of penalizing the other performance of the tire. Thus the rolling resistance or the comfort of use can be degraded, even in running at normal pressure, that is to say when the tire is inflated to its operating pressure. Regardless of the fact that these tires also prove to be much heavier and more expensive than other tires, a puncture of a "run fiat" tire mounted in the rear of a vehicle may not be noticed quickly.

A second solution is to apply sealing materials on the inner surfaces of the tire. In case of puncture, this material flows on the inner surfaces of the tire. US Patent 4,206,796 provides an example. One of the disadvantages of this technology lies in that it is adapted especially to punctures at the crown of the tire and less damage to the flank, because the sealing composition tends to move, under the effect of force. centrifuge towards the top and not to cover the inner wall of the sidewall.

An alternative to the proposed solutions is also to install in a tubeless tire a non-inflated tube but which in case of puncture can be inflated to compensate for the volume of inflation gas lost and thus keep the tire in a functional state the time to travel the distance needed to repair or change the tire.

Thus, the published patent document US 2005/0109439 discloses a tire provided with an air chamber adhered to the rim of the wheel, close to a system for detecting the pressure of the tire, an inflation gas reservoir and of an igniter. When a puncture takes place, the igniter is activated and propels gas to inflate the inner tube so that it occupies the lost volume of the tire and can allow the driver to drive to a place of repair .

The published patent document FR 1,256,373 also describes a tire comprising a deflated air chamber attached to the mounting on the rim and can be held on the latter with a strip of paper. After puncture, this tube can be inflated with a valve and be used to support the tire until it can be repaired. The paper holding tape is broken under these conditions.

If in these two documents the air chamber plays the role of a safety chamber by filling after puncture the inner space of a tire without a tube, they have the major disadvantage of being able to move during rolling and therefore to cause an imbalance of the tire. In addition, the mounting of the air chamber requires it to be adhered to the bottom of the rim, which presents a difficulty in assembly and replacement. The object of the invention is to solve at least one of the problems posed by the prior art. More specifically, the invention aims to improve the stability of "tubeless" tires in which an emergency air chamber is incorporated, and whatever before or after puncture. The invention also aims to provide a simple solution, economical and easy to implement that facilitates the use of emergency tubes in tubeless tires. For this purpose, the invention relates to a motor vehicle wheel comprising a rim with a hollow transverse profile forming a rim bottom; a tire of the "tubeless" type mounted on the rim; and an air chamber with an O-wall disposed against the rim bottom, and which is to be inflated when the tire is punctured; remarkable in that the wheel further comprises a system for fixing the wall of the air chamber to the bottom of the rim, said system being configured so as to allow progressive disengagement of said wall as said chamber air is swollen after a puncture.

According to an advantageous embodiment of the invention, the fastening system keeps the air chamber against the bottom of the rim during the rotation of the wheel.

According to an advantageous embodiment of the invention, the fastening system comprises a first layer attached to the bottom of the rim and a second layer attached to the wall of the air chamber, said first and second layers cooperating by adhesion and / or mechanical engagement. .

According to an advantageous embodiment of the invention, the first layer of the fastening system comprises hooks or loops and the second layer of said system loops or hooks, respectively, which loops and hooks engage mutually.

According to an advantageous embodiment of the invention, the second layer is arranged in the form of strips in alternating positioning.

According to an advantageous embodiment of the invention, the fastening system is velcro®.

According to an advantageous embodiment of the invention, the second layer of the fastening system is an integral part of the wall of the air chamber.

According to an advantageous embodiment of the invention, the air chamber comprises a valve mounted through the rim.

According to an advantageous embodiment of the invention, the valve is mounted sealingly relative to the rim, preferably by means of a seal in contact with the bottom of the rim.

According to an advantageous embodiment of the invention, the air chamber is mounted on the rim with a pressure at most equal to 0.10 times the inflation pressure of the tire before puncture.

According to an advantageous embodiment of the invention, the first layer and the second layer of the fastening system are glued respectively against the bottom of the rim and the wall of the air chamber.

According to an advantageous embodiment of the invention, the wall of the air chamber is made of flexible material, preferably rubber.

According to an advantageous embodiment of the invention, the tire comprises a valve mounted through the rim.

According to an advantageous embodiment of the invention, the rim is metal.

According to an advantageous embodiment of the invention, the valve of the tire and the valve of the air chamber are arranged at two different places on the rim. The invention is interesting because it allows to fix and maintain fixing the spare air chamber of the tire "tubeless" on the hollow part of the rim of the wheel and thus to secure it both when it is at the same time. deflated mounting condition or inflated condition after puncture. The invention is also interesting because the fastening system makes it possible to adjust the fastening rim / emergency air chamber as a function of the inflation volume of the air chamber. This adaptability facilitates and therefore reinforces the maintenance of the inner tube, preventing it from moving and off-center during rotation of the wheel. Other features and advantages of the present invention will be better understood with the aid of the description given by way of example and with reference to the drawings among which: FIG. 1 shows a radial section of the wheel according to the invention, before the tire has been punctured. - Figure 2 is a schematic perspective and exploded view of the air chamber in the inflated state and the rim of the wheel according to the invention, with the fastening system. - Figure 3 shows a radial section of the wheel according to the invention, after the tire has suffered a puncture.

Figure 1 illustrates a section of a wheel 1 of a motor vehicle just after mounting or in rotation. This wheel 1 is formed of a tire 5 of the "tubeless" type, an air chamber 7 and a rim 3, the latter having a hollow transverse profile which forms a bottom of the rim 9. The air chamber 7 is intended to be inflated when the tire 5 has a puncture. It consists of a wall 8 which is fixed against the bottom of the rim 9 by means of a fastening system 11, the main function of which is to hold it fixed during the rotation of the wheel 1 in combination with the centrifugal force. This fastening system 11 (not visible in FIG. 1 because located under the air chamber 7 and against the rim bottom 9) is also configured to allow progressive separation of the wall 8 of the air chamber 7 as and when as the chamber 7 is inflated after puncture.

During the assembly of the wheel 1, the tire 5 is inflated to a standard pressure to roll, such as for example 2.3 bars. The air chamber 7 is mounted on the rim 3 with a pressure at most equal to 0.10 times the inflation pressure of the tire 5. At this low pressure, the air chamber 7, which is of toric shape and flexible material such as rubber, is not stretched, it is collected on itself, and can be considered as still not inflated. The inflation of the tire 5 and of the air chamber 7 are respectively carried out using a valve 26, 27 placed through the rim 3, the two valves 26, 27 being angularly offset and therefore positioned at different locations. on the rim 3. In this case in Figure 1 only the valve 26 of the tire 5 is visible.

For practical reasons of viewing the fixing system 11 of the air chamber 7 on the rim bottom 9 of the wheel 1, FIG. 2 shows a perspective view of the air chamber 7 in the inflated state and the rim 3, the two structures 3, 7 being shown separately. In this figure it is found that the fastening system 11 is in fact formed of two layers 13,15 which cooperate together when they come into contact with one another. The first layer 13 is positioned on at least one portion of the rim bottom 9 and the second layer 15 is arranged on at least a portion of the wall 8 of the air chamber 7, located opposite the rim bottom. 9. In this embodiment the two layers 13, 15 of the fastening system 11 cooperate by adhesion and / or mechanical engagement and this from the mounting of the air chamber on the bottom of the rim 9. In this case, on the 2, these two layers 13, 15 are made of fabric, such as nylon, and cooperate by gripping by mutual commitment through a system of loops and hooks. Advantageously, the preferred embodiment of the fastening system 11 is velcro®, the two layers 13, 15 being fixed by gluing respectively on the rim bottom 9 and the wall 8 of the air chamber 7 or by any other means of fixing known to those skilled in the art.

As illustrated in FIG. 2, the first layer 13 of the fastening system 11 is preferably in the form of a strip which covers at least a portion of the upper face of the rim bottom 9, but preferably the entire upper face. . The second layer 15, on the other hand, may be preferably arranged in the form of strips 23 of fabric in radial arrangement and in alternating positioning. This arrangement in several strips 23 of fabric thus allows the second layer 15 of the fastening system 11 to be able to adapt more easily to the volume variation of the air chamber 7 during its inflation after a puncture, while retaining the maximum of Hooks 19 / loop 21 adhesions (not shown in Figure 2), or any other similar attachment system known to those skilled in the art. Advantageously, the second layer 15 of the fastening system 11, and more particularly the alternating strips 23, can be synthesized at the same time as the wall 8 of the air chamber 7 on which the second layer 15 is glued. In this way, the second part 15 of the fastening system 11 is an integral part of this wall 8. Preferably, the first layer 13 disposed on the rim 9 is formed by hooks 19 and the second layer 15 arranged on the chamber to air is formed by loops 21.

Figure 3 illustrates a section of a wheel 1 of a motor vehicle according to the invention and wherein the air chamber 7 is partially inflated. The latter is in fact in an unfolded state and begins to occupy the volume of gas lost by the tire 5 due to an untimely puncture. Once fully inflated, the air chamber 7 will occupy the entire volume of the tire 5 thus supporting the wheel 1 and the driver can continue to drive to go to a place to change or repair the wheel 1. In this figure 3, the valve 27 for inflating the air chamber 7 is visible. Like the valve 26 of the tire (see FIG. 1), this valve 27 is mounted on the rim 3 and a seal 29 (not visible in FIG. 3) is positioned between the valve 27 and the rim base 9. to ensure impermeability. During the inflation of the air chamber 7, the fastening system 11 of the air chamber 7 on the bottom of the rim 9 has adapted to the increase of the volume of the air chamber 7, the two layers 13, 15 of the fastening system 11 cooperating and to maintain the air chamber 7 fixed on the rim 3. It should be noted also that for better insertion but especially a better stability of the air chamber assembly 7 / rim 3, the air chamber 7 preferably has a size smaller than the size of the rim 3, for example 12-13 inches against 15 inches.

In general, the present invention makes it possible to improve the fixing and the maintenance of an air chamber mounted in a "tubeless" tire. The fastening system according to the invention, combined with an air chamber inflated to a pressure at most equal to 0.10 times the inflation pressure of the tire, prevents the centrifugal force from taking off the tube from the rim and that the wheel is thus unbalanced, but also eliminates any vibration while driving the vehicle. In addition in case of puncture, if the inner tube is not fixed on the rim but the valve is, this invention has the advantage of preventing the valve tears during acceleration and before or after inflation. Thanks to this invention, the stability of the air chamber is improved, whether before or after inflation following a puncture of the tire. The fastening system also has the advantage of being adaptable to most "tubeless" tires and to be an easy and economical solution to implement. This invention may be particularly interesting to use for inflatable tires for car raids where the risk of punctures are numerous and the number of onboard spare wheels is limited.

Claims (15)

Motor vehicle wheel (1) comprising: - a rim (3) with a hollow transverse profile forming a rim bottom (9); a tire (5) of the tubeless type mounted on the rim (3); and - an air chamber (7) with a wall (8) toric disposed against the rim bottom (9), and which is intended to be inflated when the tire (5) undergoes a puncture. characterized in that the wheel (1) further comprises: a fastening system (11) of the wall (8) of the air chamber (7) at the bottom of the rim (9), said system (11) being configured so as to allow progressive disengagement of said wall (8) as said air chamber (7) is inflated after a puncture. 2. Wheel (1) according to claim 2, characterized in that the fastening system (11) maintains the air chamber (7) against the bottom of the rim (9) during the rotation of the wheel (1). Wheel according to claims 1 and 2, characterized in that the fastening system (11) comprises a first layer (13) fixed to the bottom of the rim (9) and a second layer (15) fixed to the wall (8). ) of the air chamber (7), said first and second layers cooperating by adhesion and / or mechanical engagement. 4. Wheel (1) according to claim 3, characterized in that the first layer (13) of the fastening system (11) comprises hooks (19) or loops (21) and the second layer (15) of said system ( 11) loops (21) or hooks (19), respectively, which loops (21) and hooks (19) engage one another. 5. Wheel (1) according to one of claims 3 to 4, characterized in that the second layer (15) is arranged in the form of strips (23) in alternating positioning. 6. Wheel (1) according to claims 3 to 5, characterized in that the fastening system (11) is velcro®. 7. Wheel (1) according to claim 6, characterized in that the second layer (15) of the fastening system (11) is an integral part of the wall (8) of the air chamber (7). 8. Wheel (1) according to claims 1 to 7, characterized in that the air chamber (7) comprises a valve (27) mounted therethrough on the rim (3). 9. Wheel (1) according to claim 8, characterized in that the valve (27) is sealingly mounted relative to the rim (3), preferably by means of a seal (29) in contact with the bottom of the rim (9). 10. Wheel (1) according to claims 1 to 10, characterized in that the air chamber (7) is mounted on the rim (3) with a pressure at most equal to 0.10 times the inflation pressure of the tire ( 5) before puncture. 11. Wheel (1) according to claims 3 to 10, characterized in that the first layer (13) and the second layer (15) of the fastening system (11) are glued respectively against the bottom of the rim (9) and the wall (8) of the air chamber (7). 12. Wheel (1) according to claims 1 to 11, characterized in that the wall (8) of the air chamber (7) is of flexible material, preferably rubber. 13. Wheel (1) according to claims 1 to 12, characterized in that the tire (5) comprises a valve (26) mounted therethrough on the rim (3). 14. Wheel (1) according to claims 1 to 13, characterized in that the rim (3) is metal, preferably aluminum. 15. Wheel (1) according to claim 14, characterized in that the valve (26) of the tire (5) and the valve (27) of the air chamber (7) are arranged at two different locations on the rim bottom. (9).