INFLATION VALVE FOR TIRE RIM WITH LIMITATION OF ELASTIC DEFORMATION

Abstract

A valve with elastic deformation and having a tubular core adapted to form an internal air passage from an external longitudinal end of the valve to an internal longitudinal end, the tubular core being at least partially surrounded by a sleeve of elastically deformable material and having a bulb shape widening in proximity to the internal longitudinal end of the valve and ending in an internal longitudinal bulb end. A cup made of rigid material includes a first portion facing an internal longitudinal bulb end face and at least one second portion curved away from the internal longitudinal end of the valve, the cup serving as a way of limiting deformation of the bulb.

Claims

1. An inflation valve intended to be placed in an orifice of a rim of a tire of a motor vehicle, the valve being of the type with elastic deformation and having a tubular core adapted to form an internal air passage from an external longitudinal end of the valve to an internal longitudinal end, the tubular core being at least partially surrounded by a sleeve of elastically deformable material from a longitudinal central portion toward the internal longitudinal end of the valve, the sleeve having the shape of a bulb widening in proximity to the internal longitudinal end of the valve and ending with an internal longitudinal bulb end, the valve comprising: a cup of rigid material comprising a first portion facing an internal longitudinal bulb end face and at least a second portion curved away from the internal longitudinal end of the valve, the cup configured to limit deformation of the bulb, the first portion of the cup comprising a central bore for the passage of the tubular core toward the internal longitudinal end of the valve, wherein the central bore of the cup is extended by a collar framing the tubular core, one end of the collar furthest from the bulb forming the internal longitudinal end of the valve.

2. The valve as claimed in claim 1, wherein the first portion facing an internal longitudinal bulb end face either bears at least partially against the end face turned toward the internal longitudinal end of the valve or is arranged at a distance from this end face with one or more housings extending in a length of the bulb and starting from the end face for an at least partial insertion of said at least one curved second portion in the one or more housings.

3. The valve as claimed in claim 1, wherein the bulb carries a sealing groove at least partially around the bulb on its outer contour and having internal and external edges respectively turned toward the internal and external longitudinal ends of the valve, the groove being adapted to receive an edge of the orifice of the rim within, a free end of said at least one curved second portion of the cup being at most at the level of the internal edge of the groove.

4. The valve as claimed in claim 4, wherein the internal longitudinal bulb end is interposed between the groove and the internal longitudinal end of the valve.

5. The valve as claimed in claim 4, wherein the tubular core projects from the sleeve with an external longitudinal end of the tubular core forming the external longitudinal end of the valve, an internal longitudinal end of the tubular core being at the level of the groove for a non-telescopic tubular core, the cup being carried with clearance by the internal longitudinal bulb end or, when the tubular core is telescopic, the longitudinal end of the tubular core moves between the level of the groove and a more internal position than the internal longitudinal bulb end, the cup bearing at least partially against the internal longitudinal bulb end or with clearance relative to the internal longitudinal bulb end.

6. The valve as claimed in claim 1, wherein said at least one curved second portion of the cup is a curved tab and the first portion of the cup is in the form of a disk or a star.

7. The valve as claimed in claim 6, wherein the cup comprises at least two curved tabs, and, when the first portion is in the form of a star, the star has as many points as there are tabs.

8. The valve as claimed in claim 1, wherein the cup is secured by welding or adhesive bonding with the bulb or the cup is at least partially overmolded in the bulb, said at least one curved-away second portion having means for strengthening adhesion with the bulb of the notch or lug type or another harpoon-like element.

9. The valve as claimed in claim 1, wherein the valve incorporates an electronic unit for measuring at least one operating parameter of a tire.

10. An assembly of a rim of a motor-vehicle wheel and of an inflation valve, the inflation valve being fitted through an orifice of the rim presenting an outer part to the rim and an inner part to the rim, wherein the valve is as claimed in claim 1, the cup and a part of the bulb being inserted into an interior of the rim, said at least one second portion curved away from the internal longitudinal end of the valve limiting a deformation of the bulb with a free end of said at least one curved second portion abutting against an internal wall of the rim in the vicinity of an edge of the orifice.

11. The assembly as claimed in claim 10, wherein the rim has an internal protuberance on its internal wall and said at least one curved second portion is configured such that a zone of said at least one curved second portion other than its free end abuts against the internal protuberance for an additional limitation of the deformation of the bulb.

12. The valve as claimed in claim 2, wherein the bulb carries a sealing groove at least partially around the bulb on its outer contour and having internal and external edges respectively turned toward the internal and external longitudinal ends of the valve, the groove being adapted to receive an edge of the orifice of the rim within, a free end of said at least one curved second portion of the cup being at most at the level of the internal edge of the groove.

13. The valve as claimed in claim 3, wherein the tubular core projects from the sleeve with an external longitudinal end of the tubular core forming the external longitudinal end of the valve, an internal longitudinal end of the tubular core being at the level of the groove for a non-telescopic tubular core, the cup being carried with clearance by the internal longitudinal bulb end or, when the tubular core is telescopic, the longitudinal end of the tubular core moves between the level of the groove and a more internal position than the internal longitudinal bulb end, the cup bearing at least partially against the internal longitudinal bulb end or with clearance relative to the internal longitudinal bulb end.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0042] Other features, aspects and advantages of the present invention will become apparent on reading the following detailed description and on examining the appended drawings given by way of non-limiting examples, and in which:

[0043] FIG. 1 is a schematic representation of a longitudinal sectional view of an inflation valve inserted into an orifice of a motor-vehicle tire rim in accordance with a first optional embodiment according to the present invention, the innermost face of the bulb carrying a cup limiting its deformation secured to said face, the cup being capable of abutting against a vicinity of the edge of the orifice of the rim, the tubular core being in the retracted position in this FIG. 1,

[0044] FIG. 2 is a schematic representation of a longitudinal sectional view of an inflation valve inserted into an orifice of a motor-vehicle tire rim according to a first optional embodiment according to the present invention, the innermost face of the bulb carrying a cup limiting its deformation secured to said face, the cup being capable of abutting against a vicinity of the edge of the orifice of the rim, the tubular core being stretched longitudinally in this FIG. 2,

[0045] FIG. 3 is a schematic representation of a longitudinal sectional view of an inflation valve inserted into an orifice of a motor-vehicle tire rim according to a second optional embodiment according to the present invention, the innermost face of the bulb carrying a cup limiting its deformation overmolded in the bulb, the cup being able to abut against a vicinity of the edge of the orifice of the rim, the tubular core being stretched longitudinally in this FIG. 3,

[0046] FIG. 4 is a schematic representation of a perspective view of the face most internal to the rim of the bulb, this face carrying a cup according to an embodiment of the present invention, the cup being in the form of a star having tabs limiting deformation of the bulb that the tabs enclose,

[0047] FIG. 5 is a schematic perspective representation of the cup shown in FIG. 4 taken in isolation from the bulb,

[0048] FIG. 6 is a schematic representation of a longitudinal sectional view of a rim portion enclosing, in an orifice, a bulb carrying a cup limiting the deformation of the bulb according to another optional embodiment according to the present invention, the rim having a internal protuberance and the cup abutting, in two different places, against the vicinity of the edge of the orifice of the rim and against the protuberance.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0049] In the following text, internal and external are considered with reference to the motor-vehicle-tire rim, any element inside the rim and therefore inside the tire being qualified as internal and any element outside the rim and therefore outside the tire being qualified as an external element.

[0050] The term valve may equally well denote an inflation valve used only for inflating and sealing the tire carried by the rim or a valve fulfilling other functions also, by being a wheel unit as previously mentioned. Thus, the valve can incorporate an electronic unit for measuring at least one operating parameter of a tire, such as pressure, temperature, speed of rotation of the tire or other parameters.

[0051] Referring to all the figures and in particular to FIGS. 1 to 3, an aspect of the present invention relates to an inflation valve 1 intended to be placed in an orifice 3 of the tire rim 2 of a motor vehicle, the valve 1 being of the elastic deformation type. As previously mentioned, this valve 1 may be in the form of a wheel unit and not be reduced to serve for inflation and sealing of the tire on which the rim 2 is mounted, the valve 1 comprising an electronic module as electronic unit arranged inside the tire at an internal longitudinal end of the valve 1, this electronic module not being illustrated in the figures.

[0052] The valve 1 is of elongate shape and has a tubular core 5 adapted to form an internal passage of air from an external longitudinal end of the valve 1 to an internal longitudinal end. The external longitudinal end of the valve 1 may have a protective, sealing plug. The valve 1 may also have an electronic module as electronic unit at its internal longitudinal end, the plug and the electronic module not being shown in the figures.

[0053] For a valve 1 with elastic deformation, the tubular core 5 is at least partially surrounded by a sleeve 6 made of elastically deformable material. The tubular core 5 may be telescopic or non-telescopic relative to the cup. In FIGS. 1 to 3 and 6, the tubular core 5 is telescopic and in FIG. 4, the tubular core 5 is not telescopic.

[0054] The sleeve 6 of elastically deformable material surrounds the tubular core 5 from a longitudinal central portion toward the internal longitudinal end of the valve 1, although it may not reach this internal longitudinal end of the valve 1, in particular when the tubular core 5 is telescopic.

[0055] The sleeve 6 locally has a bulb shape 7 at its innermost longitudinal end, widening over its length in proximity to the internal longitudinal end of the valve 1. The bulb 7 terminates at an internal longitudinal bulb end 7a, which may be its widest portion.

[0056] According to an aspect of the invention, the innermost longitudinal end of the bulb 7 has a cup 8 made of rigid material. The cup 8 may be metallic or made from hard plastics. There may be clearance between the cup 8 and the innermost longitudinal end of the bulb 7. This may be the case, in particular but not uniquely, for a non-telescopic tubular core 5.

[0057] The cup 8 has a first portion 8a facing an internal longitudinal bulb end face 7a. The first portion 8a may be carried, for example bearing at least partially on or at a distance from the internal longitudinal bulb end face 7a turned toward the internal longitudinal end of the valve 1, but also on the internal longitudinal bulb end face turned toward the internal longitudinal end of the valve 1, that is to say in an interior of the bulb 7, which is the case when the first portion 8a in particular and, if necessary, the entire cup 8 are overmolded in the bulb 7 of elastically deformable material.

[0058] The cup 8 comprises at least one second portion 8b curved away from the internal longitudinal end of the valve 1. The cup 8 serves as a means of limiting a deformation of the bulb 7, advantageously when the vehicle is traveling when the wheels turn and the valve 1 and in particular the deformable sleeve 6, and more particularly its bulb 7, are subjected to a centrifugal force.

[0059] The first portion 8a facing the internal longitudinal bulb end face 7a may be pressed at least partially against the bulb end face 7a or arranged at a distance from this end face 7a. In this case, for holding the cup 8, provision may be made for one or more housings 15, visible in FIG. 4, extending in a length of the bulb 7 and starting from the end face 7a for at least partial insertion of said at least one curved second portion 8b in the one or more housings 15.

[0060] As may be seen in FIGS. 1 to 3 and 6, the bulb 7 may have a sealing groove 9 at least partially around the bulb 7 on its outer contour and having internal and external edges respectively facing the internal and external longitudinal ends of the valve 1. The groove 9 may advantageously make a complete turn of the bulb 7, having as its center of rotation a point on the longitudinal median axis of the valve 1, this being in a radial plane relative to the valve 1. The groove 9 may have a U-shape section, the base of the U spacing the internal and external edges respectively forming a branch of the U.

[0061] Such a groove 9 may be adapted to receive an edge of the orifice 3 of the rim 2 within, advantageously an entire circumference of the edge of the orifice 3 of the rim 2. A free end 8c of the curved second portion(s) 8b of the cup 8 may be at most at the level of the internal edge of the groove 9.

[0062] Thus, if the bulb 7 deforms beyond a certain limit determined empirically during travel of the motor vehicle, a free end 8c pointing outward from the rim 2 of the or some of the curved second portions 8b may abut against a portion in the vicinity of the edge of the orifice 3 of the rim 2 when the motor vehicle is traveling through the action of the centrifugal force deforming the bulb 7 while the curved second portion(s) 8b, when the vehicle is stationary, did not previously interfere with the insertion of the valve 1 into the orifice 3 of the rim 2 during fitting of the valve 1.

[0063] The internal longitudinal bulb end 7a may be interposed between the groove 9 and the internal longitudinal end of the valve 1, and therefore does not form the internal longitudinal end of this valve 1. In this configuration, the first portion 8a of the cup 8 may include a central bore 10 for the passage of the tubular core toward the internal longitudinal end of the valve 1.

[0064] The central bore 10 of the cup 8 may be extended by a collar 11 framing the tubular core 5, one end of the collar 11 furthest from the bulb 7 forming the internal longitudinal end of the valve 1. This is shown in FIGS. 1 to 3 and 6 while FIGS. 4 and 5 show a cup 8 without a collar 11.

[0065] As previously mentioned, the tubular core 5 is not necessarily surrounded by the sleeve 6 over its entire length. For example, the tubular core 5 may protrude from the sleeve 6 with an external longitudinal end of the tubular core 5 forming the external longitudinal end of the valve 1.

[0066] FIG. 4 shows a non-telescopic tubular core 5. In this case, the cup 8 may be carried with clearance by the internal longitudinal bulb end 7a.

[0067] When the tubular core 5 is telescopic, which is shown in FIGS. 1 to 3 and 6, the longitudinal end of the tubular core 5 moves between the level of the groove 9 and a more internal position than the internal longitudinal bulb end 7a, the cup 8 bearing at least partially against the internal longitudinal bulb end 7a. In FIG. 1, the tubular core 5 is in the retracted position and in FIGS. 2, 3 and 6 the tubular core 5 is in the deployed position.

[0068] Referring to all the figures and in particular to FIGS. 4 and 5, the curved second portion(s) of the cup 8 may be one or more curved tabs 8b and the first portion 8a of the cup 8 may be in the form of a disk or a star. This is a preferred but non-limiting embodiment of the present invention and, alternately, a single curved second portion may, for example, run entirely around the first portion 8a of the cup 8.

[0069] FIG. 4 shows a cup 8 with a first portion 8a in the shape of a four-pointed star, this cup 8 being positioned on the internal longitudinal face of a bulb 7, each point of the star bearing, at its end, a tab 8b as the respective curved portion.

[0070] FIG. 5 shows a cup 8 with the same star shape for the first portion 8a as in FIG. 4 without this cup 8 being positioned in this FIG. 5 on the internal face of a bulb not visible in this figure. In both FIG. 4 and FIG. 5, the first portion 8a of the cup 8 is pierced with a central bore 10. These embodiments are not limiting.

[0071] Generally, a cup 8 comprises at least two curved tabs as curved second portions 8b. When the first portion 8a is in the form of a star, the star may have as many points as there are tabs 8b.

[0072] The cup 8, mainly its first portion 8a but also possibly its curved second portion(s) 8b, may be secured by welding or adhesive bonding to the bulb 7. This is shown in FIGS. 1, 2 and 6.

[0073] Alternately, as shown in FIG. 3, the cup 8, advantageously its first portion 8a but also its curved second portion(s) 8b, may be at least partially overmolded in the bulb 7. When the cup 8 is overmolded, it is an overmolding layer that envelops the free end 8c of each curved second portion 8b serving as a stop, being interposed between the free end 8c and a stop zone on the rim 2, advantageously in the vicinity of the orifice 3 of the rim 2. Similarly, the cup 8 is no longer exactly located on the internal longitudinal bulb end face 7a, but is inserted into this face while being enveloped by an end layer of the bulb 7.

[0074] In the two cases described above, and more particularly for a cup 8 secured by adhesive bonding or welding, the curved-away second portion(s) 8b may have means for strengthening adhesion with the bulb 7 of the notch or lug type or another harpoon-like element, for example a series of successive notches for anchoring the curved second portion(s) 8b with the bulb 7, these strengthening means not being shown in the figures. Housings 15 of the curved second portions 8b may also increase the securing of the curved second portions 8b with the bulb 7.

[0075] An aspect of the invention also relates to an assembly of a rim 2 of a motor-vehicle wheel and of an inflation valve 1, the inflation valve 1 being fitted through an orifice 3 of the rim 2 by presenting an outer part to the rim 2 and an inner part to the rim 2, the outer part projecting from the motor vehicle and the inner part being contained in the tire associated with the rim 2.

[0076] According to an aspect of the invention, for a valve 1 as previously described, the cup 8 and part of the bulb 7 are inserted inside the rim 2, the second portion(s) 8b of the cup 8 curved away from the internal longitudinal end of the valve 1 limiting a deformation of the bulb 7 with a free end 8c of the or at least one curved second portion 8b abutting against an internal wall in the vicinity of an edge of the orifice 3 of the rim 2. This stop is advantageously frontal.

[0077] For several curved second portions 8b symmetrically distributed around the first portion 8a of the cup 8, when a curved second portion 8b in abutment bears on the rim 2 during a deformation of the bulb 7, it is possible that at least one curved second portion 8b, lying substantially opposite the curved second portion 8b in abutment or the most angularly distant from this curved second portion 8b in abutment, for example at 180 or 120 of this curved second portion 8b in abutment, is not in contact with the rim 2 or is even withdrawn with respect to the rim 2. Thus, all the curved second portions 8b may not be simultaneously in abutment against the rim 2, which is frequently the case.

[0078] As may be seen in FIG. 6, the rim 2 may have an internal protuberance 12 on its internal wall in the vicinity of the orifice 3. This protuberance 12 has, in FIG. 6, the non-limiting form of a stud pointing toward the inside of the rim 2 while extending substantially perpendicularly relative to the internal wall of the rim 2. In this case, the curved second portion(s) 8b may be configured such that a zone 13 of said at least one curved second portion 8b other than its free end 8c comes into abutment with the internal protuberance 12 for an additional limitation of the deformation of the bulb 7.

[0079] In FIG. 6, the protuberance 12, advantageously in the form of a stud, may cover a curved second portion 8b and act as a second stop against one end of the curved second portion 8b connected to the first portion 8a, this connected end making a second stop zone 13 while the free end 8c of the curved second portion 8b forms the first stop zone. This second stop is a lateral stop against the stud 12 while the free end 8c of the curved second portion 8b is in abutment or in the process of being in frontal abutment with a zone in the vicinity of the edge of the orifice 3 of the rim 2 and not the edge itself since the edge is accommodated in the groove 9 carried by the bulb 7.