Bead breaking unit for tyre changing machines

Abstract

The bead breaking unit for tyre changing machines comprises an arm which is associable to the base of a tyre changing machine and which has a first end associated to a bead breaking tool and a second end opposite the first.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

Further characteristics and advantages of the present invention will appear even more evident from the detailed description of a preferred, but not exclusive, embodiment of a bead breaking unit for tyre changing machines, illustrated indicatively by way of non limiting example, in the attached drawings wherein:

the FIG. 1 is a plan view, schematic and partial, of a tyre changing machine on which the bead breaking unit according to the invention is mounted, arranged in the first operating configuration and with the bead breaking tool in the idle position;

the FIG. 2 is a plan view, schematic and partial, of a tyre changing machine on which the bead breaking unit according to the invention is mounted, arranged in the first operating configuration and with the bead breaking tool in the working position;

the FIG. 3 is a plan view, schematic and partial, of a tyre changing machine on which the bead breaking unit according to the invention is mounted, arranged in the second operating configuration and with the bead breaking tool in the idle position;

the FIG. 4 is a plan view, schematic and partial, of a tyre changing machine on which the bead breaking unit according to the invention is mounted, arranged in the second operating configuration and with the bead breaking tool in the working position;

the FIG. 5 is a plan view and on an enlarged scale of the arm of the bead breaking unit according to the invention;

the FIG. 6 is a plan view and on an enlarged scale of the guide element of the bead breaking unit according to the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT(S)

With particular reference to such figures, a tyre changing machine has been globally indicated by 1.

The machine 1 has a supporting base 2 which on one lateral side 3 houses a bead breaking unit 4 to bead break the tyre of a wheel from its rim.

To the lateral side 3 is also associated a foot 5, which has a front pad 6 on which to rest the wheel to bead break, as well as a substantially horizontal longitudinal rib 7.

The bead breaking unit 4 has an arm 8 that has a first end 8a connected to a bead breaking tool 9 and a second end 8b opposite the first.

Between the base 2 and the arm 8 a pneumatic cylinder 10 is interposed with its corresponding ends hinged to the rib 7 and to the median portion 8c of the arm 8 respectively.

The operation of the pneumatic cylinder 10 moves the arm 4 causing the bead breaking tool 9 to move away or close to the wheel.

In particular, the cylinder 10 allows the bead breaking tool 9 to go from an idle position (FIGS. 1 and 3), where the bead breaking tool 9 is substantially distanced from the base 2, to a working position (FIGS. 2 and 4) where the bead breaking tool 9 is arranged in proximity of the base and comes into contact with the side of the tyre on which the bead breaking is to be executed.

Advantageously, the bead breaking unit 4 comprises an adjustment device 11 for adjusting the trajectory of the bead breaking tool 9 during the movement between the idle position and the working position.

Such adjustment device 11 are interposed between the base 2 and the arm 8 and are suitable for defining a first operating configuration (FIGS. 1 and 2), wherein the trajectory T₁ of the bead breaking tool 9 is substantially curvilinear, and a second operating configuration (FIGS. 3 and 4), wherein the trajectory T₂ of the bead breaking tool 9 is substantially rectilinear and at right angles to the side 3 of the base 2.

The adjustment device 11, in effect, allow to adjust the way the bead breaking tool 9 moves close to the wheel and make it possible to choose the best approach for the type of tyre to bead break, in particular modifying the trajectory of the active part of the bead breaking tool 9, i.e., the part that comes into contact with the wheel, during the passage from the idle position to the working position.

In detail, the adjustment device 11 comprise a connecting rod 12 which has an extremal section hinged to the rib 7 and the opposite extremal section hinged to the arm 8.

Both the hinged points of the connecting rod 11 are turnable around respective substantially vertical axes.

In addition, the adjustment device 11 include a guide element 13 that extends from the lateral side 3 and is placed between the base 2 and the arm 8.

On the guide element 13 there are guide means for the arm 8 which, for example, are made up of a first through slot 14a and a second through slot 14b obtained on the distal part of the guide element 13 and are alternatively engageable by the median portion 8c of the arm 8.

The first slot 14a is shaped like a circumference arc which, in the first operating configuration, has its centre in the hinged point of the connecting rod 12 with the second end 8b of the arm 8.

Instead the second slot 14b is curvilinear in shape with its concavity opposite with respect to the first slot 14a.

The median portion 8c of the arm 8 is arranged in proximity of the distal part of the guide element 13 and at least in part overlaps it.

In addition, on the median portion 8c a first and a second through hole 15a and 15b are obtained intended to be coupled to the first and second slot 14a and 14b respectively by means of a pin 16.

In fact, in the first operating configuration the pin 16 is inserted precisely in the first hole 15a and in a sliding way along the first slot 14a, univocally determining the relative movement of the arm 8 in relation to the base 2.

Due to the particular shape of the first slot 14a, in detail, in the first operating configuration the connecting rod 12 remains still while the arm 8 and the bead breaking tool 9 delineate the circular trajectory T₁ around the hinged point of the connecting rod 12 with the second end 8b of the arm 8.

In the second operating configuration, however, the pin 16 is inserted precisely inside the second hole 15b and in a sliding way along the second slot 14b.

During the movement from the idle position to the working position, the particular curvilinear shape of the second slot 15b guides the arm 8 in a rotating-translating movement wherein the first end 8a moves close to the wheel to bead break along the rectilinear trajectory T₂ while the connecting rod 12 delineates a small rotation around the hinged point with the rib 7.

It was in fact seen how the invention described achieved the proposed objects and, in particular, the fact is underlined that it is able to work with two different operating configurations which make it possible to diversify the moving-near approach of the bead breaking tool to the wheel, achieving greater flexibility of use and the possibility of working on different types of tyre.

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) Bead breaking unit for tyre changing machines, comprising an arm associable to the base of a tyre changing machine and having a first end which is associated to a bead breaking tool and a second end opposite the first, said first end being mobile between an idle position, in which said bead breaking tool is placed away from the base, and a working position, in which said bead breaking tool is placed in contact with a wheel to bead break, positioned in proximity of the base, wherein it comprises an adjustment device for adjusting the trajectory of said bead breaking tool when moving between said idle position and said working position, which are interposed between said base and said arm and suitable for defining at least one first operating configuration in which said trajectory is substantially curvilinear and at least a second operating configuration in which said trajectory is substantially rectilinear.

2) Bead breaking unit according to claim 1, wherein said adjustment device is associated to a lateral side of said base.

3) Bead breaking unit according to claim 1, wherein said adjustment device comprise a connecting rod which has a section hinged to said base and a section hinged to said arm.

4) Bead breaking unit according to claim 3, wherein said arm is hinged to said connecting rod at said second end.

5) Bead breaking unit according to claim 1, wherein said adjustment device comprise at least one guide element, placed in between said arm and said base, and having guide means of at least one portion of said arm.

6) Bead breaking unit according to claim 5, wherein said portion is substantially median.

7) Bead breaking unit according to claim 5, wherein said guide means comprise at least a first and a second slot which are obtained on said guide element and are alternatively engageable by said portion of the arm.

8) Bead breaking unit according to claim 7, wherein said adjustment device comprise a connecting rod which has a section hinged to said base and a section hinged to said arm, and said first slot is shaped like a circumference arc which, in said first operating configuration, has its centre in the hinged point of said arm with said connecting rod.

9) Bead breaking unit according to claim 7, wherein said second slot is curvilinear in shape with its concavity opposite said first slot.

10) Bead breaking unit according to claim 7, wherein said adjustment device comprise at least a through hole obtained on said portion of the arm and at least one pin which can be inserted in said hole and alternatively in one of said slots.

11) Bead breaking unit according to claim 10, wherein said adjustment device comprise two of said holes, one for each of said slots.