Not applicable.
Not applicable.
Not applicable.
Not applicable.
1. Field of the Invention
The invention relates to a machine for cambering, forming, folding or bending bars, wires or section pieces.
2. Description of Related Art Including Information Disclosed Under 37 CFR 1.97 and 37 CFR 1.98
Chairs, driers, light fittings, display stands and numerous objects are produced from bars, tubes or section pieces that are bent or folded into complex shapes, sometimes in all three dimensions. These shapes are produced by means of bending machines which deform the elements without breaking them, keeping crushing to a minimum.
These bending machines are becoming increasingly sophisticated in order to produce components of ever increasing complexity, repeatably, with automation, and at high production rates.
It is often necessary to perform two or even more bending operations in different planes on a tube, bar or section piece, and this is achieved by disengaging the tube after each stage and then repositioning it, having pivoted it axially.
Conventionally, bending machines have different bending heads for producing three-dimensional deformations of the elements in two or more stages as need be. With a view to fully automating these machines, it is absolutely essential for the element that is to be deformed to be repositioned in the machine after each bending operation, and this operation is performed by orienting heads positioned between the bending elements or by bending heads that allow numerous deformations, such as those described in the applicant company's document EP 1 272 293.
In many cases it is desirable to deform tubes, wires, section pieces or bars in several planes and in an optimum manner without them having to be repositioned by an orienting device which leads to potential problems of positioning them in the machine. Bending machines of the prior art conventionally are of two types, draw bending machines and compression bending machines.
These two categories of machine, which will be described later on in the description, have common shortcomings:
It is therefore an objective of the invention to resolve these main difficulties by proposing a bending machine that has a bending head of a novel type.
The present invention relates to a machine for cambering, forming, folding or bending a tube, a bar, a wire or a section piece comprising a bend die provided with a clamping system, with a device for orientating the tube and with a bending jaw. The bending jaw is prismatic and machined to the diameter of the tube on at least one of its faces. The dynamics governing the movement of the bending jaw in an area peripheral to the bend die is brought about by any combination of at least two movements, rectilinear or rotary. The bending jaw can be oriented in terms of rotation about a central axis perpendicular to the bending plane. The bending jaw is able to move in the vertical direction to allow the tube that is to be bent to be positioned to the right or to the left, and several shapes or diameters to be superposed.
The bending jaw can be moved in an area peripheral to the bend die so that it can press against the tube that is to be bent in numerous configurations.
The bending machine according to the invention possesses numerous advantages:
Further features and advantages of the invention will become apparent from the description which will follow with reference to the attached drawings which are given purely by way of nonrestrictive examples.
For ease of reading, the following description employs the term “tube” generically to denote a part that may be a bar, a wire, a section piece, or a tube before it has been bent.
For ease of depiction in
In the conventional way, a bending machine according to the invention comprises a support structure supporting the bend die, a clamping device for holding the tube throughout the forming operation and a tube orienting device. To make the invention easier to understand,
The prior art in the field of bending is known in two main forms: the “draw bending” technique depicted in
In the “draw bending” technique, the tube 1 is clamped on the bend die 2 and rotated thereby, the tube 1 being held in place during bending by a work rest 3 that may be fixed or sliding.
This machine displays several disadvantages. For short segments between bends, the jaw has to be machined to the shape of the previous bend. The bending head is a one way head and bending can therefore be performed only in either of the clockwise direction or the counterclockwise direction. Also, the jaw that is supposed to prevent the tube from slipping during bending may mark this tube, particularly in the case of light alloys.
In the “compression bending” technique, a depiction of which is provided in
Just as in the previous technique, short segments between bends are difficult or impossible to achieve and the roller that rotates during bending often marks the tube.
The two essential elements of the bending machine according to the invention are depicted schematically in
As has been depicted in
The bending jaw 8 is prismatic and machined to the radius of the tube on at least one of its faces. Advantageously, the jaw will be machined on both lateral faces 9, 10 so as to allow folds in both the two possible directions in the plane of the bend die. The interior shape of the jaw 8 is, on the whole, concave and advantageously of a complementary shape with dimensions adapted to mate with the semicircle of the bend die.
By configuring the bending jaw 8 in this way, it is possible to position it as close as possible to the bend die and therefore perform successive bending operations with very short straight segments in-between.
The bending jaw according to the invention also has the special feature of being positionable in a great many configurations:
To sum up, the bending jaw 8 can move in three dimensions around the bend die and adopt numerous positions in order to carry out the bending operations.
According to the invention, the jaw can move rotationally about its central axis 12 and along this same vertical axis. In fact, it is advantageous to position various machined shapes on the sides of the jaw so that various bending operations can be performed using the same jaw. Advantageously, a means allowing the unused part or parts of the jaw to be kept clear in order to perform the next bending operation may be envisioned.
As has been depicted in
This retraction of one or more levels can be achieved in various ways, for example by pivoting the level about an axis 18.
By combining the various options for moving the bending jaw with those of a jaw that has several levels, a great many bending operations can be performed using a single part.
According to the invention, the bending machine may comprise a jaw that has at least one retractable facet, and said retractable facet is retracted by tilting or pivoting about an articulation positioned on the jaw itself.
In this example, the bending jaw 19 performs a rocking movement remaining tangential to the curvature of the bend so that there is no slippage of this bending jaw with respect to the bent tube.
According to the invention, the jaw can move in an area peripheral to the double bend die, and this is particularly advantageous when there are obstacles on the part that is to be produced and when the bending needs to be particularly pronounced. In situations such as this, depicted by
The invention also relates to a method of bending a tube using a machine as described hereinabove, in which the jaw is moved at least once along said tube during the shape forming operation, it being possible for the jaw to be moved in an area 11 peripheral to the bend die.
To carry out various bending operations, the jaw can be moved in a vertical direction or rotationally about a vertical axis passing through it, at right angles to the bending plane, or in a combination of the aforementioned two movements.
One example of the way in which the jaw moves during bending is illustrated in
An important alternative form of the invention is depicted in
The bending jaws 23 and 24 may themselves be equipped with bend dies, in order thus to increase the number of possible combinations.
Just as in the examples that use a double bend die, the bending jaw 8 is prismatic and machined to the radius of the tube on at least one of its faces, the dynamics governing the movement of the bending jaw taking place in an area peripheral to the bend die and the jaw is orientable both in rotation and in terms of movement on a vertical axis.
All the options described in the aforementioned examples with a double bend die are still valid with this specific clamping system.
This alternative form allows the use of a single bend die that works in either direction according to the desired bend radius or direction. The clamping jaws 23 and 24 allow clamping alternatively to the right or to the left, and the rocking device allows the inoperative jaw to be retracted completely out of the working area to allow bends of up to 180 to be achieved.
The rocking beam 22 comprises two wrist pins that guide the rocking beam and its path in a form 25 which form 25 comprises cheeks in order to ensure precisely the desired movement.
The rocking beam 22 is driven by a crankshaft, wrist pin and square coupling piece assembly, the coupling piece sliding in a slot in the rocking beam.
In the depiction of
There are numerous other alternative forms that the bending machine can adopt. For example, a simple or complex shaping of the bending jaw 8 may be envisioned, with one or more facets, which facets may be articulated to the jaw in various ways. A jaw made up of several levels may be provided, without departing from the scope of the invention.
There are various conceivable ways of moving the jaw in the region peripheral to the bend die and for orienting it in space.
The tubes, bars, wires or section pieces may be of varying sizes and natures without departing from the scope of the invention.
Quite obviously it is conceivable for bending operations that are more complicated that those described in the examples to be performed, for example with numerous repositionings of the jaw during the method of forming an element.
The machine that has the features of the invention may incidentally be numerically controlled or otherwise.
Of course, the invention is not restricted to the embodiments described and depicted by way of examples but also encompasses all technical equivalents and combinations thereof.
Number | Date | Country | Kind |
---|---|---|---|
05 11016 | Oct 2005 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/FR2006/002197 | 9/28/2006 | WO | 00 | 4/21/2008 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2007/048893 | 5/3/2007 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2389937 | Schmitt | Nov 1945 | A |
4206629 | Grimaldo | Jun 1980 | A |
4833907 | Grimaldo | May 1989 | A |
4888971 | Schwarze | Dec 1989 | A |
6155091 | Hayes et al. | Dec 2000 | A |
20030205074 | O'Donnell et al. | Nov 2003 | A1 |
Number | Date | Country | |
---|---|---|---|
20080295559 A1 | Dec 2008 | US |