 Bulkhead door locking |
| OF THE DRAWINGS FIG. 1 illustrates a bulkhead door 10 for mounting in a casing 22 of a large ... |
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| Hinged door assembly |
| OF PREFERRED EMBODIMENT By way of further explanation of the invention, an exemplary embodiment of ... |
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| Door assembly for shielded room |
| OF THE PREFERRED EMBODIMENTS Having reference now to the drawings, there is illustrated a door ... |
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| Door assembly for shielded room |
| OF THE INVENTION Having reference now to the drawings, there is illustrated a door assembly ... |
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| Centrifugal clutch for a locking actuator of a motor vehicle door latch |
| What is claimed is: 1. A centrifugal clutch for a locking actuator of a motor vehicle door latch ... |
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| Process for the backside-gettering surface treatment of semiconductor wafers |
| What is claimed is: 1. A process for the backside-gettering surface treatment of semiconductor ... |
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| Method for improving the quality of low frequency output of a video disc pickup stylus |
| We have found that removing nonelectrode metal deposits improves the low frequency response of a ... |
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| Roofing tiles |
| OF THE DRAWINGS As can be seen in FIG. 1, a roofing tile 10 is made from a sheet of malleable ... |
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| Double clipper, single piston operated device |
| What is claimed is: 1. An improved clip attachment device comprising, in combination: a mounting ... |
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| Collapsible luggage carrier |
| I claim: 1. A collapsible luggage carrier comprising a handle having portions adjacent its lower ... |
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Oleoelastic energy accumulator
| Details |
Inventors: Tangorra, Giorgio;
Assignee: Industrie Pirelli S.p.A (Milan, IT)
Primary Examiner: Butler; Douglas C.
Assistant Examiner:
Attorney, Agent or Firm: Stevens, Davis, Miller & Mosher
An oleoelastic energy accumulator includes a rigid casing, at least one membrane of a polymeric material having a high deformability, and a liquid. The membrane has a curvilinear form, e.g., convex, toward the inside of the casing to the borders of which the membrane is tightly sealed for delimiting or defining a closed space occupied by the liquid. In correspondence with the pressure variations in the liquid, the membrane acts like a piston and passes from an at-rest, curvilinear configuration, to a final substantially flat configuration as a result of gradual and successive compression of the membrane which, in this manner, accumulates energy. |
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DETAILED DESCRIPTION What is claimed is: 1.
An oleoelastic energy accumulator for absorbing energy through compression of an elastomeric material, comprising; a rigid casing delimited by borders, at least one deformable elastomeric membrane having a central zone and a peripheral zone, said membrane being tightly sealed to said borders of the casing to delimit a closed space bounded by said casing and said membrane, said membrane having a convex configuration curved inwardly toward said closed space when in an at-rest position and a final flat configuration, said central zone and said peripheral zone having a thickness which is less than a thickness of a remaining portion of said membrane located between said central zone and said peripheral zone, said thickness of said remaining portion being between 0.
3 and 0.
6 times a distance between said central zone and said peripheral zone, a liquid disposed in said closed space to act on one side only of said membrane, means for limiting movement of said membrane, said membrane comprising means for enabling said membrane to pass from said convex configuration when at rest to said final flat configuration by means of a gradual compression over its entire extension with a resultant accumulation of elastic energy when subjected to pressure from said liquid, and to enable said elastic energy to be released when said pressure from said liquid is released.
2.
Oleoelastic energy accumulator as defined in claim 1, characterized in that in said at-rest position, said membrane is already in a pre-compressed state.
3.
Oleoelastic energy accumulator as defined in claim 1, comprising stiffening means (12) that are disposed substantially on the outer face of the membrane in the proximity of the casing borders.
4.
Oleoelastic energy accumulator as defined in claim 1, wherein said membrane comprises a conical-shaped external surface (9) and an inner surface (10).
5.
Oleoelastic energy accumulator as defined in claim 1, comprising relatively hard elements (24 and 25) englobed in the membrane material between the central zone and the peripheral zone
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Vibration and Earthquake Isolation 
