1. Field of the Invention
The present invention relates to a guide support for tube bending machines and, more particularly, to a guide support for tube bending machines that allows the bending of a tube either to the left, in a clockwise direction, or to the right, in a counterclockwise direction.
2. Description of Related Art
To bend a tube in a clockwise direction, a bending arm rotates from the right to the left around a bending head.
To bend a tube in a counterclockwise direction, a bending arm rotates from the left to the right around a bending head.
French patent application No. 0118593, in the name of the applicant, discloses a tube bending machine for bending a tube either to the left or to the right by means of a bending roller mounted to the bending arm.
Further, a tube bending machine described in the French patent application No. 1116593 comprises:
As such, the tube bending machine disclosed in French patent application No. 116593 comprises two guide supports to effectuate the bending of the tube in a clockwise and a counterclockwise direction, respectively.
The guide support in accordance with the present invention provides for the simplification and the replacement of the first and second guide supports by enabling bending to be effectuated in clockwise and counterclockwise directions.
The guide support in accordance with the present invention can be built for and installed on any type of tube bending machine.
The guide support in accordance with the present invention comprises at least two guides whose respective recesses are arranged in opposite directions with respect to the position of a tube for bending and two guiding means for the guides on the bending head.
The guide support in accordance with the present invention comprises an element guided in a horizontal motion on a plate rigidly secured to the bending head. The element includes the guiding means on a first surface and the at least two guides arranged parallel to each other on a second opposite surface.
The guide element in accordance with the present invention further includes parallel rails on the second, opposite surface, each of which each interacts with a guide.
The guide support in accordance with the present invention comprises a first guide that is provided with a partially cylindrical recess having an internal diameter that corresponds to an outer diameter of a tube to be held between jaws of a clamping jaw during bending.
The guide support in accordance with the present invention comprises a second guide provided with a partially cylindrical recess having an internal diameter that corresponds to an outer diameter of a tube to be held between jaws of a clamping jaw during bending.
The guide support in accordance with the present invention is provided with guides that are immobilized on the rails in such a manner that their respective recesses are arranged in opposite directions with respect to a horizontal axis of the tube bending machine, embodied by the tube.
The guide support in accordance with the present invention is provided with guides that enable either a left, or counterclockwise, bending or a right, or clockwise, bending to be effectuated on the same bending machine.
The below description with respect to the attached illustrations, given by way of example but not limiting, allows a better understanding of the invention, its characteristics and the advantages it is likely to offer:
As shown in
Opposite the bending head 3 and along its longitudinal axis, the framework 2 comprises a carriage 6 which, depending on the type of the bending machine, can move either toward or away from the bending head 3.
The carriage 6 comprises fastening means 7 for receiving and securing the tube 5 in order to move it horizontally and in a rotational manner around its axis.
The bending arm 4 comprises a grip support 8 that moves horizontally in the direction of the bending head 3.
The bending arm 4 is rigidly secured to a bending roller 9 to provide a fastening device of a clamping jaw 12 provided with at least one jaw 10, 11 of different bending radii.
The clamping jaw 12 is provided on the grip support 8 of the bending arm 4 with at least one jaw 13, 14 for the purpose of interacting with the jaws 10, 11, respectively, of the bending roller 9.
The bending head 3 is provided with sliding means 15, 16 for allowing the bending head 3 to travel in horizontal and vertical directions with respect to the stationary framework 2.
Thus, the sliding means 15 allow the bending head 3 to travel in horizontal directions from the left to the right, and vice versa, with respect to the framework 2.
Likewise, the sliding means 16 allow the bending head 3 to travel in vertical directions from the top downwardly, and vice versa, with respect to the framework 2.
Depending on the programming of the bending machine 1, the jaws 10, 13 and 11, 14 of the clamping jaw 12 can effectuate, by way of example, the bending of the tube 5 according to different curvature radii in a clockwise direction.
Also depending on the programming of the bending machine 1, the jaws 10, 13 and 11, 14 of the clamping jaw 12 can effectuate, by way of example, the bending of the tube 5 according to different curvature radii in a counterclockwise direction.
Lastly, depending on the programming of the bending machine 1, the jaws 10, 13 of the clamping jaw 12 can effectuate the bending of the tube 5 according to a curvature radius in a counterclockwise direction, while the jaws 11, 14 of the clamping jaw 12 effectuate the bending of the tube 5 according to a curvature radius either identical to or different from the one previously formed but in a clockwise direction.
Between the sliding means 15 and 16, the bending head 3 is provided with a horizontal plate 17 comprising parallel guide rails 18, 19 for the sliding of a guide support 20.
The guide support 20 can travel in a horizontal direction in such a manner as to move toward or away from the clamping jaw 12 of the bending machine 1.
The sliding of the guide support 20 in direction toward the clamping jaw 12 is disposed on a horizontal plane that is perpendicular to the sliding means 15 for the horizontal displacements of the bending head 3 with respect to the framework 2 and to the sliding means 16 allowing the vertical displacements of the bending head 3 with respect to the framework 2.
The guide support 20 comprises an element 21 provided on its bottom 22 with guides 23 and 24 for interacting with rails 18 and 19 of the plate 17.
On its upper side 25 and in a perpendicular direction to that of the guides 23, 24, the element 21 of the support guide 20 is provided with parallel rails 26 and 27, each of which interacts with each of the guides 28 and 29, respectively, in order to allow either the sliding or the immobilization of the guides 28 and 29 on the element 21.
The guide 28 comprises a recess 30 that can be partially cylindrical and that has an internal diameter that corresponds to an outer diameter of the tube 5 which, during bending, is held between the jaws of the bending roller 9 and of the clamping jaw 12.
The guide 29 is provided with a recess 31 that can be partially cylindrical and that has an internal diameter that corresponds to an outer diameter of the tube 5 which, during bending, is held between the jaws of the bending roller 9 and the clamping jaw 12.
The profile of the recesses 30, 31 of each guide 28, 29 corresponds to the outer diameter of the tube, which can present any exterior shape.
The guides 28 and 29 interact with the rails 26 and 27 in such a manner that their respective recesses 30 and 31 are arranged in opposite directions with respect to the horizontal axis of the machine 1, embodied by the tube 5.
Thus, the recess 30 of the guide 28 is turned from the side of the bending roller 9, while recess 31 of the guide 29 is oriented in the direction of the clamping jaw 12 when the grip support 8 is positioned at the left of the tube 5.
The number of the guides 28, 29 depends on the number of the jaws 10, 13 and 11, 14 installed on the tube bending machine 1.
The height of the recesses 30 and 31 of the guides 28 and 29, respectively, are staggered with respect to each other due to the position of the jaws 10, 13 and 11, 14 of the clamping jaw 12 on the bending arm 4.
In a preferred embodiment, the guide 28 is applied against the tube 5 when the tube 5 is being bent by the jaws 10, 13 of the clamping jaw 12, while the guide 29 is applied against the tube 5 when the tube 5 is being bent by the jaws 11, 14 of the clamping jaw 12.
Under these conditions, the inverted positions of the guides 28 and 29 allows the same bending machine 1 to effectuate either a bending to the left, or counterclockwise, or a bending to the right, or clockwise, respectively.
Thus, with such a design, the jaws 10, 13 of the clamping jaw 12 and the guide 28 of the guide support 20 allow a bending of the tube 5 in a counterclockwise direction because the bending arm 4 rotates from left to right around the bending head 3.
On the other hand, the jaws 11, 14 of the clamping jaw 12 and the guide 29 of the guide support 20 enable the carrying out of a bending of the tube 5 in a clockwise direction because the bending arm 4 rotates from right to left around the bending head 3.
First, the bending head 3 travels vertically toward a lower part of the bending machine 1 so that the assembly of the bending head 3, the bending arm 4, and the guide support 20 is positioned below the tube 5 held in the carriage 6, which is securely fastened to the framework 2.
Second, the guide support 20 travels horizontally on the plate 17 so that the guide 29 is positioned to the right of the tube 5.
Third and in a simultaneous manner, the bending arm 4 swings around the bending head 3 in order to move the jaw 14 to the right of the tube 5, while the bending arm 3 moves via the sliding means 15 and 16 so as to be positioned at the level of the tube 5, the guide 29, and the jaws 11,14 of the clamping jaw 12.
The second bending of the tube 5 in a clockwise direction is carried out by the swinging of the bending arm 4 around the bending head 3. The guide 29 provides conveyance of the tube 5 by allowing sliding of the tube 5 inside he recess 31 by rotation of the jaws 11, 14 of the clamping jaw 12.
Due to the position between the guides 28 and 29, the guide support 20 allows a standard bending machine 1 to effectuate the bending of a tube 5 in clockwise and counterclockwise directions.
It must be further understood that the foregoing description is given only by way of example and that it does not limit in the least the domain of the invention, which must be observed when substituting the details of embodiment described herein by other equivalent ones.
Number | Date | Country | Kind |
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02 07847 | Jun 2002 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR03/01949 | 6/25/2003 | WO | 00 | 3/18/2005 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO04/000479 | 12/31/2003 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4843859 | Togoshi | Jul 1989 | A |
5499522 | Schwarze | Mar 1996 | A |
6155091 | Hayes et al. | Dec 2000 | A |
Number | Date | Country |
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0990471 | Apr 2000 | EP |
Number | Date | Country | |
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20050217337 A1 | Oct 2005 | US |