SPINDLE FOR FITTING VEHICLE WHEEL RIMS ON WORKSHOP MACHINES, PARTICULARLY TYRE-CHANGING MACHINES OR THE LIKE

Abstract

The spindle for fitting vehicle wheel rims on workshop machines, particularly tyre-changing machines or the like, comprises a frame associable in rotation around a work axis with a workshop machine, at least three gripping adapters of the rim of a wheel associable with the frame and moving along respective approach and away movement directions with respect to the work axis, at least a fluid-operated actuator cylinder associated with one of the gripping adapters and suitable for moving the adapter along the corresponding approach and away movement direction, at least three racks, each of which is associated with one gripping adapter and extends substantially parallel with the corresponding approach and away movement directions, and a pinion meshed with the racks.

Description

Further characteristics and advantages of this invention will appear even more evident from the detailed description of a preferred, but not exclusive, embodiment of a spindle for fitting vehicle wheel rims on workshop machines, particularly tyre-changing machines or the like, illustrated indicatively by way of non limiting example, in the attached drawings wherein:

FIG. 1 is a perspective view of a tyre-changing machine on which is fitted the spindle according to the invention;

FIG. 2 is an overhead view of the spindle according to the invention;

FIG. 3 is a plan view of a portion of the spindle according to the invention which illustrates in detail the synchronisation arrangement in the gripping adapter closing configuration;

FIG. 4 is a plan view of the portion of FIG. 3 which illustrates in detail the synchronisation arrangement of the spindle according to the invention in the gripping adapter opening configuration;

FIG. 5 is a plan view of another portion of the spindle according to the invention which illustrates in detail the actuator cylinders and the relative arrangement for adjusting the stroke;

FIG. 6 is a raised side view of the spindle according to the invention in the gripping adapter closing configuration;

FIG. 7 is a raised side view of the spindle according to the invention in the gripping adapter opening configuration.

With particular reference to such figures, a spindle has been globally indicated by 1 for fitting vehicle wheel rims on workshop machines, particularly tyre-changing machines or the like.

In the particular application of the present invention shown in FIG. 1, the workshop machine is made up of a tyre-changing machine M used to fit and remove tyres to and from vehicle wheel rims, but it is intuitive to appreciate how the spindle 1 can be fitted on any workshop machine which, similarly, requires the gripping of rims for carrying out particular jobs on wheels.

The spindle 1 comprises a frame 2 that can be associated with the tyre-changing machine M to be rotated around a work axis A by means of a gearmotor 3.

In the particular embodiment of the invention shown in FIG. 1, the work axis A is vertical but alternative applications cannot be ruled out in which the spindle 1 is mounted turnable around a horizontal axis or otherwise tilted.

On the frame 2 four gripping adapters 4 are fitted for gripping the rim of a wheel that move along respective radial approach and away movement directions with respect to the work axis A, two by two orthogonal to each other. Each of the gripping adapters 4 is associated with a corresponding actuator cylinder 5 which is fluid-operated (pneumatic, hydraulic, etc.), having a fixed end 6 associated with the frame 2 and a thrust moving end 7 associated with the corresponding gripping adapter 4.

The frame 2 is made up of a plate 8 orthogonal to the work axis A, and which is associated integral with the output shaft 9 of the gearmotor 3 and has an upper surface from which the gripping adapters 4 protrude.

In detail, on the plate 8, four through longitudinal slots 10 are obtained for sliding the gripping adapters 4 which define the approach and away movement directions with respect to the work axis A.

The plate 8 also has a lower surface, the central portion of which is associated with a supporting mount 11 for supporting the actuator cylinders 5.

The actuator cylinders 5 are arranged along axes parallel with the approach and away movement directions of the gripping adapters 4 and are skew with respect to the work axis A.

The fixed ends 6 of the actuator cylinders 5 are made up of a base portion of their liners which couples onto the mount 11.

The moving ends 7, on the other hand, consist of a connecting bracket for connecting the rod 12 of the actuator cylinders 5 to the gripping adapters 4; such brackets are arranged through the longitudinal slots 10.

The spindle 1 has synchronisation arrangement 13 for synchronising the movement of the gripping adapters 4.

Such synchronisation arrangement consist of four racks 14, each of which is associated with a bracket 7 and extends substantially parallel with one of the approach and away movement directions with respect to the work axis A.

To the racks 14 a pinion 15 is meshed turnable idle around an axis coaxial to the work axis A; the pinion 15, in particular, is made up of an external-toothing annular element which is fitted freely sliding around the output shaft 9 of the gearmotor 3 underneath the plate 8.

The racks 14 are arranged two by two parallel to each other and diametrically opposed with respect to the pinion 15.

In particular, two racks 14 mesh with the upper part of the pinion 15 and are arranged above the other two racks 14, which on the other hand mesh with the lower part of the pinion 15.

The spindle 1 has an adjustment arrangement 16 for adjusting the stroke of the rods 12 of the actuator cylinders 5 which, for easier representation, are shown in detail only in FIG. 5.

The adjustment arrangement 16 consist of a plurality of bars, one for each gripping adapter 4, which have at least one contrast element 17 for contrasting the sliding of the adapters themselves.

The bars 16, in particular, are associated to one another at the mount 11 at the centre of the frame 2 and are turnable in an integral way with each other between one operating position, in which the contrast elements 17 are arranged on the trajectories of movement of the brackets 7, and an idle position, in which the contrast elements 17 are arranged substantially away from such trajectories. In the particular embodiment of the invention shown in FIG. 5, the adjustment arrangement 16 is arranged in the idle position and do not intervene to change the stroke of the actuator cylinders 5; the path of the gripping adapters 4 therefore corresponds to the length of the cylinders themselves.

Such adjustment arrangement also comprise just one contrast element 17 which is arranged at the free end of each bar 16.

Once placed in the operating position, the contrast elements 17 act as a stop for the brackets 7 in the opening configuration of the gripping adapters 4; the active stroke of the actuator cylinders 5 assessed starting from the closing configuration is therefore determined by the length of the bars 16 and by the distance of the contrast elements 17 from the mount 11.

Furthermore, alternative embodiments of the invention are possible in which the bars 16 have with a plurality of contrast elements 17 arranged at different distances from the centre of the plate 8 and suitable for permitting the positioning of the gripping adapters 4 in different opening configurations.

At the median portions, the bars 16 have a gripping grip 18 for moving these manually between the operating configuration and the idle configuration.

It has in fact been seen how the described invention achieves the set objects.

In this respect, the fact is underlined that the present invention is able to operate in conditions of utmost safety and functionality even in the event of the malfunction of one or two actuator cylinders.

In this case, in fact, the operation of the remaining actuator cylinders permits controlling the opening and closing of all the gripping adapters, transmitting the movement from one adapter to another by means of the pinion-rack coupling.

The invention thus conceived is susceptible of numerous modifications and variations, all of which falling within the scope of the inventive concept.

Furthermore all the details may be replaced by other elements which are technically equivalent.

In practice, the materials used, as well as the contingent shapes and dimensions, may be any according to requirements without because of this moving outside the protection scope of the following claims.

Claims

1. Spindle for fitting vehicle wheel rims on workshop machines, particularly tyre-changing machines or the like, comprising at least one frame associable in rotation around a work axis with a workshop machine, and at least three gripping adapters of the rim of a wheel associable with said frame and moving along respective approach and away movement directions with respect to said work axis, wherein the spindle comprises at least one fluid-operated actuator cylinder associated with at least one of said gripping adapters and suitable for moving the adapter along the corresponding approach and away movement direction, at least three racks, each of which is associated with each of said gripping adapters and extends substantially parallel with each of said approach and away movement directions, and at least one pinion meshed with said racks.

2. Spindle according to claim 1, wherein said actuator cylinder has a fixed end associated with said frame and a thrust moving end associated with at least one of said gripping adapters.

3. Spindle according to claim 1, including a plurality of said actuator cylinders, at least one for each of said gripping adapters.

4. Spindle according to claim 1, wherein said approach and away movement directions are substantially radial with respect to said work axis.

5. Spindle according to claim 1, wherein said frame comprises at least one plate substantially orthogonal to said work axis.

6. Spindle according to claim 5, wherein said plate has a surface from which said gripping adapters protrude and an opposite surface with which said actuator cylinder is associated.

7. Spindle according to claim 5, wherein said plate comprises a plurality of longitudinal slots for sliding said gripping adapters.

8. Spindle according to claim 5, wherein said frame comprises a supporting mount for supporting said actuator cylinder associated with said plate.

9. Spindle according to claim 1, wherein said actuator cylinder is arranged along axes substantially parallel with said approach and away movement directions.

10. Spindle according to claim 1, wherein said actuator cylinder is arranged along axes substantially skew with respect to said work axis.

11. Spindle according to claim 2, wherein said fixed end comprise a portion of the liner of said actuator cylinder.

12. Spindle according to claim 2, wherein said moving end comprise a connecting bracket for connecting the rod of said actuator cylinder to said gripping adapters.

13. Spindle according to claims 12, wherein said frame comprises at least one plate substantially orthogonal to said work axis, said plate comprises a plurality of longitudinal slots for sliding said gripping adapters and said connecting brackets are arranged through said longitudinal slots.

14. Spindle according to claim 1, wherein said pinion is substantially idle.

15. Spindle according to claim 1, wherein said pinion is turnable around an axis substantially parallel with said work axis.

16. Spindle according to claim 1, wherein said pinion is substantially coaxial to said work axis.

17. Spindle according to claim 1, wherein at least two of said racks are arranged parallel and diametrically opposed with respect to said pinion.

18. Spindle according to claim 1, wherein at least two of said racks are arranged one above the other.

19. Spindle according to claim 1, including an adjustment arrangement for adjusting the stroke of at least one of the rods of said actuator cylinders.

20. Spindle according to claim 19, wherein said adjustment arrangement comprise at least one bar associable with the central portion of said frame and having at least one contrast element for contrasting the sliding of at least one of said gripping adapters.

21. Spindle according to claim 20, wherein said bar is associated with said frame turnable between one operating position, in which said contrast element is arranged on the trajectory of movement of at least one of said brackets, and an idle position, in which said contrast element is arranged substantially away from said trajectory of movement.

22. Spindle according to claim 20, wherein said bar comprises a gripping grip.

23. Spindle according to claim 20, wherein said bar comprises a plurality of said contrast elements.

24. Spindle according to claim 20, wherein said adjustment arrangement comprise one of said bars for each of said gripping adapters.

25. Spindle according to claim 24, wherein bars are associated with each other and moving in an integral way between said operating position and said idle position.

26. Spindle according to claim 1, including four of said gripping adapters, two by two moving along approach and away movement directions orthogonal to each other.

27. Spindle according to claim 1, including four of said racks, two by two arranged along directions orthogonal to each other.