Self-centering oscillating fork, particularly for four-point...

Metal deforming – With indication of condition or position of work – product,... – Including deformation by simple bending

Reexamination Certificate

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C072S389300, C072S389600, C072S031010

Reexamination Certificate

active

06651471

ABSTRACT:

This is a nationalization of PCT/IT00/00128, filed Apr. 7, 2000, and published in English.
TECHNICAL FIELD
This invention, has for object an improved forked fork of the self-centring oscillating type, particularly for the bending angle measuring on four points, in a pressing-bending machine, namely a press brake.
The invention finds particular even if not exclusive application in the sheet controlled deformation processes.
BACKGROUND ART
The press brakes find their use in the metal and mechanical industry, and in particular in the metal sheets manufacturing, for obtaining for instance, some differently shaped longitudinal profiles, with the possibility of being taken up again and, each, subjected again to a pressing-bending cycle.
A pressing-bending cycle, for instance, may essentially consist of a tool vertical descent up to contact the underlying sheet rested on the “V”-like matrix, in carrying out the bending, and thus finally, in re-ascending up to a starting position.
For carrying out the described steps, the machine is made up of two parts, respectively a first dynamical one, generally concerning the upper part, and a static one, making up the machine lower part placed on the dynamic part perpendicular line. For what concerns the dynamic part, when carrying out a bending cycle, the tool, made up of a differently shaped blade also of the interchangeable type, performs exclusively a to-and-fro vertical movement, ensured by at least a final oleodynamic cylinder, which determines the descent of an upper cross-beam which supports the tool longitudinally, towards a lower crossbeam, followed by the eventual stop and re-ascent.
In the known solutions, some drawbacks were noticed. These generally concern the bending angle inaccuracy and are anyway related to an objective difficulty of predetermination and detection of the same. Presently, in fact, the traditional system provides that, giving a matrix known total height and a bend hollow depth, as well as the material thickness, the punch lowers for contacting the sheet giving it the required angle. In the machines endowed with numeric control, the punch descent is mathematically calculated according to some parameters set by the operator, and as a consequence, the machine is pre-set for executing the programmed angle. However the result is not always optimal, because such an art, many times leads to obtaining some angles having errors even if limited. This is due to different reasons, such as for instance the thickness of materials, where even a centesimal amount affects negatively the manufacturing. Furthermore, for other aspects, because it is a predetermined theoretical calculation, such a system does not give the possibility of really checking the result, during the bending, with the risk of compromising the whole productive process. A further relevant factor, concerns the material natural spring-back, which is calculated hypothetically and thus for what it can be reliable, it will only get near the real result but will never be considered as a real data. Finally, besides the product faultiness, it should be considered that the desired result can never be obtained during the first working cycle, that is during the first pressing of the cross-beam, but generally, it always requires a second pressing-bending step which intervenes as a correction of the first result.
With the purpose of solving the pointed out problems, there are now on the market some evolved pressing machines, whose target is in one way or the other that of obtaining a manufactured product with the bending angle exactly coinciding with the data required by the operator in the least time possible.
Solely as example, the solution as in European patent 340 167 (Hammerle), in which a bending process according to a given nominal angle with the aid of a bending equipment made up of a punch and a matrix, which is provided with an adjustable bottom according to the angle to be formed, is known. The text points out that the process consists in providing:
in a first step, the matrix bottom adjustment in height occurs on the basis of the first angle to be obtained, which is a bit larger with respect to the nominal angle given, where the sheet is bent on the basis of this first angle by means of the punch lowering up to the matrix bottom;
in a second step, the profile is discharged, so that a return of the same to an extended position occurs;
in a third step the measured angle deriving from the returned and stretched profile, is compared to the first angle and the matrix bottom position is adjusted with a value that corresponds to the nominal angle minus the difference between the angle measured on the released profile and the first angle;
in a fourth step the bent sheet is pressed with the punch completely again charged against the bottom of the matrix, which will take a correct position in height.
However even this solution is not free from drawbacks. Firstly, it appears an extremely complex machine, not flexible and somewhat oversized, which needs a constant and particular maintenance and setting-up, mainly feasible by highly specialised personnel. As a consequence, for the reference market, there are high costs, above all in relation to the purchase and management of the machine itself. By the qualitative view-point, finally, said solution does not allow to obtain a bending of the sheet with the round edge on the extrados, therefore optimal for the subsequent processings. And in fact, it can considered that in the bending step, using a third dynamic point as standstill mechanic element provided on the matrix bottom, the sheet in logic correspondence tends to deform, flattening, practically crushing, even if lightly, above all in correspondence of the bending angle extrados.
In relation to these and other measuring techniques of the bending angle, it is opinion of the applicant, that the working and above all the measuring step of the bending angle can be further optimized, above all regarding the precision and the reading times, all factors, on which the possibility to intervene effectively for correcting the spring-back of an already pressed-bent sheet depends.
Finalized to solving completely the problems of the known art, the solution as in national application of patent for industrial invention, n. TV97A000083 (Gasparini,), was put on the market. It, substantially, consists of a pressing-bending improved process of the sheet with the bending angle measuring system on four points, and press brake so obtained, in which it is provided:
the advancement on the work bench of at least one sheet foil, up to intersect the descent vertical axis of the upper cross-beam supporting a punch, towards the underlying matrix sustained by a lower cross-beam; and in which on the intrados of the sheet foil rested on the matrix, at least one feeling means made up of a measuring fork interacting with a position transducer, communicating with a data processing logic unit that manages said press brake; insists permanently;
therefore, in carrying out a first descent step of the upper cross-beam supporting the punch, toward the underlying matrix sustained by a lower cross-beam, pressing-bending the sheet foil and determining a corresponding displacement along the vertical axis of said feeling means, which, interacting with a position transducer, communicates to the computer unit the data relative to the stroke carried out by the same;
at the end, in carrying out at least one partial re-ascent of the upper cross-beam and of the relative punch, carrying out at the same time the return of the feeling means to a former condition;
and still in which, detecting in the first step through said feeling means permanently in contact with the sheet, a different bending angle with reference to the pre-set nominal one, said computer unit ensures the consent to the press brake, not discharging the product thus obtained, to carry out at least a second descent step of the upper cross-beam supporting the punch, towards the underlying matrix up to insist again on the same bending angle, for then proceeding to

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