| 主权项 |
1. A pneumatic support (1), for a machine, being interposed between and integral with a first part of a supporting structure and a second part of a driving device, so that:
a first rigid carrier means (2) is able to ensure a rigid connection of the pneumatic support with one of such two parts comprises a portion of a side wall and a portion of a transverse wall (11) and a second rigid carrier means (3) is able to ensure the rigid connection of the pneumatic support with the other part, a first spring means (4) comprising an elastomeric material, is interposed between and made rigidly integral, toward its side periphery, with the portion of the side wall and toward its middle periphery with the second carrier means (3), and has a middle transverse face (16) oriented toward the portion of the transverse wall (11), a second spring means (5) comprising an elastomeric material, is made rigidly integral toward its side periphery, with the portion of the side wall, and has a middle transverse face (19) and an opposite transverse face (20), the two middle transverse faces (16, 19) of the first and second spring means (4, 5) are opposite each other and provide a first deformable working chamber (6), whereas the opposite transverse face (20) and the portion of the transverse wall (11) are opposite each other and provide a second chamber (7), a first hole (8) provides communication between the first working chamber (6) and the outside atmosphere and a second hole (9) formed in the portion of the transverse wall provides communication between the second chamber (7) and the outside atmosphere, wherein the second spring means (5) has a low rigidity and has, between the middle transverse face (19) of the second spring means (5) and the opposite transverse face (20) which are globally flat, an overall thickness which varies at most in the ratio of 1 to 2, and at rest, said middle transverse face (19) of the second spring means (5) is separated from the middle transverse face (16) of the first spring means (4), whereas the opposite transverse face (20) is separated from the inner face of the portion of the transverse wall (11), in case of dynamic deformation of the second spring means (5) having an amplitude below a lower limit, said middle transverse face (19) of the second spring means (5) is in a free state where it is separated from the middle transverse face (16) of the first spring means (4), whereas the opposite transverse face (20) is in a free state where it is separated from the inner face of the portion of the transverse wall (11), in case of dynamic deformation between the lower limit and an upper limit, said middle transverse face (19) of the second spring means (5) is in a secured state where it is in abutting contact with the middle transverse face (16) of the first spring means (4), whereas the opposite transverse face (20) is in the free state, in case of dynamic deformation exceeding the upper limit, said middle transverse face (19) of the second spring means (5) is in a secured state and the opposite transverse face (20) is in a state where it is in abutting contact with an inner face of the portion of the transverse wall (11). |
