This application claims priority to FR 1915509 filed Dec. 23, 2019, the entire contents of each of which are hereby incorporated by reference.
The invention relates to the field of bending machines and in particular to adaptations allowing the direction of bending to be changed under the best conditions.
There are various right (clockwise rotation) and left (counterclockwise rotation) bending solutions from a tool installed on a bending arm such as that described in document EP1458505. This document describes a machine for bending tubes comprising a fixed frame provided, along its longitudinal axis, with a guide rail on which slides a movable carriage secured to a barrel allowing, via an internal clamping mandrel, the guiding and immobilizing in rotation and in translation of a tube to be bent, at one of its ends a bending head, a bending roller and a bending arm which pivots around the vertical axis of the bending head bending for tube formation. This machine was characterized in that it included:
a first ruler holder which comprises at least one jaw, for the tight support of the tube during its bending in a clockwise direction, and
a second ruler holder which comprises at least one jaw for the tight support of the tube during its bending in a counterclockwise direction.
The principle is always the same: the bending arm rotates from 0° to 180° or from 180° to 0°.
The fact of superimposing tools for bending in a clockwise direction called clockwise and tools for bending in a counterclockwise direction called trigonometric, whether at the level of the bending roller, the clamping jaw or the rulers, is liable to cause collisions between the clamping jaw and the rulers which tightly support the tube being bent when the bending arm is at 0° in one direction or the other.
To avoid these collisions, the solution described in document EP1458505 proposes to give a particular shape to the clamping jaw and to the rulers in order to fit/overlap them. This is the reason why an offset of the bending roller jaws is proposed. Such a solution nevertheless requires the design and manufacture of a special bending tool.
Other solutions propose moving or retracting the clamping jaw and/or the rulers liable to collide, but these solutions today lack rigidity. These solutions are thus more particularly used for bending small tubes which do not require significant efforts.
In addition, these different solutions, if they make it possible to avoid a 0° collision, do not allow bending going beyond. Due to the size of the various constituent elements and in particular the guide and drive means of the ruler holder, the working area remains limited to this angle.
Based on the foregoing, the Applicant conducted research aimed at finding a new solution to avoid having a collision between the clamping jaws and the rulers for a bending machine operating clockwise and/or counterclockwise.
A more general goal of this research is to free up as much space as possible so as to allow unimpeded bending.
This research resulted in the design and production of a bending machine for a workpiece to be bent, said machine being of the type comprising a frame and a bending head,
According to the invention, the bending machine is remarkable in that said clamping jaw is supported by a clamping jaw holder accommodating at least two clamping jaws arranged back-to-back,
the clamping jaw holder being dismountablly attached to a shelf which is guided and driven in translation on the bending arm,
the ruler holder is equipped with punctual fastening means of the clamping jaw holder so as to accommodate the clamping jaw holder separated from the shelf and to move it on either side of the bending axis in its starting position transversely to the advance axis of the workpiece to be bent, independently of the bending arm so that the clamping jaw holder can be fastened again to the shelf once the bending arm has been rotated 180 degrees.
The guidance in translation makes it possible to bring the clamping jaw closer and further away from the jaw provided on the roller in order to tighten and loosen the portion of the workpiece to be bent. The dismountability of the clamping jaw holder not only allows the replacement of the clamping jaws but also the displacement of the clamping jaw in its initial orientation when the arm changes position during the change of bending direction.
Indeed, the change of position of the arm during the change of bending direction results in a symmetrical arrangement of the clamping jaw holder relative to the bending axis. If this bending position does not correspond to the bending range, the dismountability of the clamping jaw holder makes it possible, for example, to keep the primary orientation of the clamping jaws and thus to use the clamping jaw arranged on the back of the first clamping jaw for the next bending operation.
This feature is therefore particularly advantageous in that it allows the clamping jaw holder to be punctually freed from the bending arm and then to fasten again one to the other once the bending arm is in the new starting position.
This feature further allows the use of different prone clamping jaw depending on the direction of the bending to be achieved.
The punctual fastening can be implemented by any fastening means controlled by direct control or by the movements of the different subassemblies.
This movement can facilitate the change of the clamping jaw holder, but it has the additional advantage of providing the clamping jaw holder with a movement means while respecting its original orientation in order to use the clamping jaw arranged on the back of the clamping jaw used in the previous bending phase. It allows a repositioning at the zero point of the stroke without requiring a movement of the shelf with respect to the arm.
This feature is also particularly advantageous in that it provides, as regards the bending head, a transverse mobility (with respect to the advance axis of the workpiece to be bent) of, on the one hand, the ruler holder supporting at least two rulers each oriented for a different bending direction, and, on the other hand, of the assembly formed by the roller and the bending arm.
These motilities add to the mobility of the bending head with respect to the bending machine frame.
The addition of motilities makes it possible to reposition the assembly formed by the roller and the arm and the ruler holder with respect to the workpiece to be bent (repositioning made necessary for a change of bending direction) by decreasing the length of the strokes required for this repositioning. The bending head can thus be less cumbersome and make possible to achieve the bending by positioning the roller and arm assembly at the end of the stroke where neither the bending head itself nor the guiding means of the ruler holder (or the ruler holder itself) impede rotation beyond 180 degrees.
In addition, the bending head is more compact and rigid.
The bending capabilities of a bending machine according to the invention are thus increased in terms of angular span, of stress to be exerted and supported and in precision.
The bending machines of the prior art that bend in both directions use only one horizontal movement. As a result, the possible range of movement of the tube during bending is reduced by the table structure guiding and driving the ruler holder. This is no longer the case with the bending machine of the invention.
According to another particularly advantageous feature of the invention, said punctual fastening means include male or female shapes fitted to the ruler holder and cooperating with corresponding female or male preformed shapes in the clamping jaw holder for the purpose of accommodating and moving the clamping jaw holder on both sides of the bending axis.
According to another particularly advantageous feature of the invention, the ruler holder comprises:
According to another particularly advantageous feature of the invention, said clamping jaw holder is equipped with male or female shapes cooperating with corresponding female or male shapes fitted to said shelf.
According to another particularly advantageous feature of the invention, said clamping jaw holder is provided with male cylindrical projections preformed with flats cooperating with buttonhole-shaped holes each associating a large-diameter hole with a smaller and oblong hole in order to retain the clamping jaw holder or release it depending on the position of its projections in said buttonhole-shaped holes.
According to another particularly advantageous feature of the invention, the bending head accommodates two pairs of horizontal guide rails transverse to the advance axis of the workpiece to be bent:
According to another particularly advantageous feature of the invention, the workpiece to be bent is brought to the bending head by means of a carriage guided and driven in translation on the frame parallel to the axis of the workpiece to be bent.
Another particularly advantageous feature of the invention is that the bending arm with the bending roller is driven and guided in translation on the bending head transversely to the advance axis of the workpiece to be bent and parallel to the transverse movement of the ruler holder.
According to another particularly advantageous feature of the invention, the bending head has a substantially parallelepipedal body of which:
The different controlled movements of the respective subassemblies allow the movements necessary for the automatic assembly/disassembly of the clamping jaw holder not only with respect to the ruler holder, but also with respect to the shelf attached to the arm.
Thus, the invention also concerns a bending process executed by a bending machine, wherein the process includes bending phases in one direction then in the other, said process being remarkable in that it comprises the following phases:
The clamping jaw holder can therefore be mounted either on one side or on the other side of the bending axis in a bending machine.
The ability to automatically change the position of the clamping jaw holder makes it possible to:
configure the machine with a clockwise or trigo bending direction without human intervention
have the possibility of bending clockwise and trigo on a same workpiece,
avoid having to move the clamping jaw holder perpendicular to the longitudinal axis of the bending arm to place the clamping jaw at the zero point of the stroke.
This new design is much more rigid and will apply to small tubes but also to large tubes. Such a solution is particularly suited to the needs of users in that many of them use very little right and left bending on the same part. Versatility is sought for a bender that can bend right or left or occasionally right and left.
The invention allows these three operating modes to work in good conditions and to switch from one mode to another without human intervention.
The description which will follow with regard to the accompanying drawings, given by way of non-limiting examples, will make it possible to better understand the invention, the features thereof and the advantages that it is likely to provide.
As illustrated in
This hollow shaft 210 allows through an internal clamping mandrel the said tube 300 to be guided and immobilized in rotation and in translation. It also defines the advance axis of the tube.
Frame 100 has a vertical front face 120, relative to which a bending head 400 moves. This bending head 400 includes:
The bending arm 500 is provided with a clamping jaw holder 510 that moves horizontally in translation according to the double arrow F3. It moves towards the bending roller 410, which is preformed with a jaw to clamp a portion of tube 300 between the arm and the roller.
This clamping jaw holder 510 is provided with two clamping jaws arranged back to back:
The bending head 400 also comprises a ruler holder 600 with at least two straight members 601 and 602, hereinafter called “rulers”, arranged back-to-back:
To achieve this tight support, the ruler holder 600 is movable in translation according to double-arrow F4.
According to the invention, the bending head 400 is designed to achieve a plurality of additional movements.
To do this, it has a substantially parallelepiped 430 body, of which:
As illustrated, the execution of a motion in translation on an axis is carried out by pairs of rails 431, 437 possibly associated with a cross-shelf for an associated perpendicular motion in translation.
As shown, the bending head 400 of the invention is very compact.
In the phase of the bending range illustrated by the drawing in
From this position, as shown in
Once the bending has been completed, as illustrated in
Several solutions for fastening the clamping jaw holder 510 to the shelf 513 have been considered. For example, in a non-limiting manner, this fastening can be achieved by clamping the clamping jaw holder on the shelf through buttonhole-type means moved pneumatically. An example is illustrated by
Referring to these figures, said clamping jaw holder 510 is provided with male shapes cooperating with corresponding female shapes fitted to said shelf 513. More precisely, said clamping jaw holder 510 is provided with male cylindrical projections 514 preformed with flats 515 cooperating with buttonhole-shaped holes 516 associating a large diameter hole with a smaller and oblong hole in order to retain or release the clamping jaw holder according to the position of its projections in said buttonhole holes.
Several solutions for fastening the clamping jaw holder 510 with respect to the ruler holder 600 have also been considered.
According to one embodiment, said punctual fastening means comprise male or female shapes 517 fitted to the ruler support 600 and cooperating with corresponding female or male shapes 519 preformed in the clamping jaw holder 510 for reception and displacement purposes of the clamping jaw holder 510 on either side of the bending axis.
The ruler holder 600 includes:
For example, in a non-limiting manner, this fastening can be achieved by 2 axes which pneumatically come out of the said fixed part and which hold the clamping jaw holder 510 in position during the lateral movement of the ruler holder 600. Another solution is a magnetic solution.
Another solution for fastening/detachment uses “Belleville” cones and washers.
The bending head 400 is first lowered with respect to tube 300 to allow the movements of the next phase in preparation for the next bending operation to be performed in a clockwise direction.
As shown in
The arm and roller assembly is moved in translation according to arrow F8 and arrow F9 to move to the other side of the advance axis of the tube 300.
As shown in
As shown in
From this position, as shown in
Of course, various arrangements, modifications and improvements can be made to the above examples, without departing from the scope of the invention.
Number | Date | Country | Kind |
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1915509 | Dec 2019 | FR | national |
Number | Name | Date | Kind |
---|---|---|---|
4987760 | Schulte | Jan 1991 | A |
5343725 | Sabine | Sep 1994 | A |
5884517 | Yogo | Mar 1999 | A |
Number | Date | Country |
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1 458 505 | Feb 2007 | EP |
03053606 | Jul 2003 | WO |
Number | Date | Country | |
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20210187573 A1 | Jun 2021 | US |