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Wobble press
| Details |
Inventors: Schlatter, Walter;
Assignee:
Primary Examiner: Crane; Daniel C.
Assistant Examiner:
Attorney, Agent or Firm: Sandler, Greenblum & Bernstein
In a wobble press with a first wobbling die-half (1) and an axially parallel moving second half-die (2), the wobbling motion is generated by a plurality of hydraulically actuated working pistons (5) cyclically engaging with the wobbling half-die (1). By means of the elimination of centrifugal forces by a counterweight (G) connected to the wobbling half-die (1), the precise guiding of the die-halves (1,2) by a centering disk (17) and the avoidance of a mechanical drive by using a multiple-pistons pump (20) and a hydraulic control system for the working pistons (5), it is possible to reduce undesirable rotary forces, vibration, friction and heat generation in such a way that substantially higher wobble frequencies and shorter processing times are attained at lower cost while maintaining the geometrical wobble effect owing to the higher wobble frequency, with a simple and rapidly acting control of the extent and form of higher wobble frequency, with a simple and rapidly acting control of the extent and form of the wobbling movement even during operation, thus making it possible to preselect the most suitable pressing program. |
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DETAILED DESCRIPTION What is claimed: 1.
A wobble press comprising in combination: a first die half; a movable second die half axially parallel relative to the first die half; means for wobbly driving said first die half, having a mass and a center of gravity S.
sub.
o, with regard to a longitudinal central axis (A) of said press, wobbly around a fulcrum point (M), said wobble drive means including hydraulic working pistons which are provided with a regular, defined, pulsating flow of a hydraulic medium, said hydraulic working pistons being connected with said first die half for the generation of a wobble movement; a counterweight (G), having a mass and a center of gravity (S.
sub.
u), connected to said first wobbly driven die half, said counterweight (G) being so structured and arranged that the product of the mass of said counterweight (G) and the eccentricity spacing (E.
sub.
u), of the spacing of the center of gravity.
(S.
sub.
u) of said counterweight (G), relative to longitudinal axis (A), at least approximately corresponds to the product of the mass of said first die half and the eccentricity spacing (E.
sub.
o), of the spacing of the center of gravity (S.
sub.
o ) of said first die half, relative to longitudinal axis (A), so that the centrifugal forces of both said counterweight (G) and said first die half at least approximately compensate each other.
2.
The wobble press of claim 1, wherein said counterweight (G) is thusly arranged that its center of gravity (S.
sub.
u) lies on the opposed side of the fulcrum (M) of the wobble movement as the center of gravity (S.
sub.
o) of said first die half, and that the product of said counterweight mass and its eccentricity spacing (E.
sub.
u) relative to the fulcrum point (M) of the wobble movement at least approximately corresponds to the product of the mass of said first die half and its eccentricity (E.
sub.
o) relative to fulcrum point (M).
3.
The wobble press of claim 1 wherein said counterweight (G) consists of a material with a high specific weight, specifically over 10 g/cm
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Optical Systems 
