The invention concerns a machine for bending a profile in two bending directions and is also directed to a bending tool for such a bending machine.
At present standard bending machines comprise means for holding profiles and moving them along a longitudinal axis (x) and a bending head rotatable about a bending axis (z), said bending head including as standard a bending roller and a clamping jaw having bearing surfaces between which a profile to be bent passes, is clamped and then bent:
Such machines have a kinematic combining relative movement of the bending roller and the clamping jaw along an axis perpendicular to the bending axis (z) and simultaneous rotation of the bending roller and the clamping jaw about the bending axis (z) in the position in which they are joined.
One particular advantage of such a kinematic is to enable the design of machines for bending profiles in two bending directions and many bending machines of this type exist at present.
On the other hand, this kinematic leads to the production of relatively complex bending heads that furthermore have a relatively large overall size.
Moreover, an additional disadvantage of such bending machines is that the bending angle is limited to 180°, or less than 180° if the end of the bent length carries an item such as a nut to enable disengagement of the profile after bending.
One solution to alleviating these drawbacks has been to design bending machines such as are described in particular in the patent applications FR2117745, EP1561522 and EP0737526 having a totally different kinematic and the bending head of which comprises:
Such bending machines therefore have a kinematic combining relative movement of the clamping forms along the bending axis (z) and simultaneous rotation of the bending forms about that bending axis (z) in the position in which they are joined.
According to this principle, the bending head thus includes clamping forms whose axis is the bending axis (z) that are adapted to move along that axis and to turn about it.
This design significantly reduces the overall size of the bending heads and simplifies the design of said bending heads because of a kinematic having a single reference axis, namely the bending axis (z).
Moreover, in the spaced-apart position of the clamping forms, the latter totally free the plane in which the profile is situated, with the result that removing it does not give rise to any problem even if the bending angle is greater than 180°.
On the other hand, the major drawback of such bending machines is that they enable bending in only one bending direction.
The present invention aims to alleviate this drawback and has for its main object the provision of a bending machine of the type described above, i.e. the kinematic of which has only one reference axis, adapted to bend a profile in two bending directions.
Another object of the invention is to provide a machine for bending a profile in two bending directions enabling bending angles greater than 180° to be produced. To this end, the invention is aimed at a bending machine having a bending head as described in the above preamble, characterised in that:
Thus the invention consists in providing two grooves in the junction face of each clamping form, each for bending profiles in one bending direction, and a rebate, arranged so that the groove not being used for bending is “retracted” relative to the longitudinal bending axis. This solution therefore produces machines for bending in two bending directions including bending heads of identical overall size and design to those of present-day bending machines the kinematic of which has only one reference axis.
This design further enables bending angles greater than 180° to be produced, notably as a function of the required maximum value of that bending angle, the pair of grooves produced in the junction face of each clamping form is advantageously such that the rebate produced between the introduction faces of said grooves delimits a circular arc between 270° and 315° inclusive.
According to another advantageous embodiment of the invention aimed at a bending machine comprising two rules disposed on the upstream side of the clamping forms and adapted to enable the bending of a profile by each of the pairs of grooves, said rules are advantageously mounted on a single carriage associated with means for moving said carriage.
This arrangement of the rules on a single carriage constitutes a highly advantageous disposition significantly simplifying the bending machine. The movement of such rules requires only one guide and only one feed control system, instead of the two guides and two control systems required for present-day machines enabling bending in two directions.
According to another advantageous embodiment of the invention, the means for driving the clamping forms in rotation include an axial opening produced in each of said clamping forms and a rotary shaft adapted to extend in these openings, said openings and said rotary shaft having conjugate members for immobilizing them relative to each other in rotation. Moreover, in a first advantageous variant of the invention aimed at a bending machine comprising two clamping forms, one of said clamping forms, referred to as the fixed form, is fixed in translation along the bending axis (z) and the other bending form, referred to as the mobile form, is mounted on means for moving said mobile clamping form in translation along the bending axis (z).
On the subject of this first variant, the rotary shaft is furthermore advantageously carried by means for moving said rotary shaft in translation along the bending axis (z) adapted to enable it to be held engaged with the two clamping forms in each of the relative positions of said clamping forms and notably the joined and spaced apart extreme positions thereof. Moreover, in the spaced-apart position of the two clamping forms the means for moving the rotary shaft in translation along the bending axis (z) are advantageously adapted to enable the latter to be placed either in a position referred to as the deployed position in which said rotary shaft is engaged with the clamping forms or in a position called the retracted position in which said rotary shaft frees, between the two junction faces of said clamping forms, a space adapted to enable the passage of the profile in order to change the bending direction.
This disposition significantly simplifies the kinematic of movement of the profiles on changes of bending direction, because this requires only one movement along an axis orthogonal to the longitudinal axis (x).
According to a second advantageous variant of the invention aimed at a bending machine comprising three clamping forms, those three clamping forms advantageously consist in:
Furthermore, in this second variant:
The invention is also directed to a tool for bending a profile about a bending axis (z), comprising at least two bending forms having junction faces in which are formed a rectilinear groove and a peripheral rebate profiled in continuity with said groove. According to the invention, the clamping forms of this tools include, formed in each of their junction faces, a rectilinear second groove foaming with the rectilinear first groove a pair of grooves delimiting in the joined position of the junction faces of the two clamping forms two clamping ducts between the introduction faces of which extends the bending bearing surface for the profiles (P) formed of the two peripheral rebates joined, the arrangement of said grooves and rebates being such that the winding bearing surface for the profiles delimits between the introduction faces of the two clamping ducts a circular arc at least equal to 270° adapted to allow the bending of a length of profile (P):
The invention further encompasses a tool as defined hereinabove having separately or in combination any of the advantageous features stated in the text and the claims of the present application.
Other features, aims and advantages of the invention will emerge from the following detailed description with reference to the appended drawings, which represent by way of non-limiting examples two preferred embodiments of the invention and a variant of the second embodiment. In these drawings:
a and 3b are two partial and partially cut-away front views representing two distinct states of the bending head of this first embodiment in the spaced-apart position of the two clamping forms,
a to 9d are four diagrams representing two successive bending operations carried out using the first embodiment of the bending machine according to the invention.
The bending machines of the invention represented by way of example in the figures are machines for bending in two bending directions a profile P carried by means of any type of means known in themselves, schematically represented at D, adapted to move said profile along a horizontal axis (x).
Note that, in order to simplify the detailed description given hereinafter, the bending machines are described in their usual position of use in which, in particular, the bending axis (z) is a vertical axis and the displacement axis (x) is a horizontal axis. Consequently, the terms vertical, horizontal, etc. relate to such a position.
The bending machine having two clamping forms represented in
This bending machine comprises a first carriage 3 adapted to slide horizontally along a horizontal axis Y relative to the frame 1 and including a vertical table 4 having horizontal slides such as 5 adapted to cooperate with horizontal rails such as 6 fainted on the front plate 2 of the frame 1.
This first carriage 3 additionally includes an upper horizontal table 7 on which a second carriage 8 is mounted to slide in translation on said horizontal axis Y and which has a horizontal plate 9 on the underside of which are disposed horizontal rails such as 10 adapted to slide in slides such as 11 provided on said upper table 7 of the first carriage 3.
The second carriage 8 also includes two parallel plates 12, 13 extending vertically on the horizontal plate 9 each having toward their upper end a slide 14 that extends horizontally along an axis X perpendicular to the axis Y and thus parallel to the axis (x) of movement of the profile P.
Each of these slides 14 is adapted to house a sliding rail 15 for supporting a guide rule 16, 17 of standard type, i.e. including a longitudinal bearing and guide groove for the profile to be bent.
The bending machine represented in
This tool consists of two clamping forms 18, 19 whose axis is a vertical bending axis (z) taking the form of discs having plane junction faces 18a, 19a extending in horizontal planes (X, Y) perpendicular to said bending axis and at the periphery of which are formed two rectilinear grooves with a longitudinal axis perpendicular to the bending radius, respectively grooves 20a, 21a for the upper clamping form 18 and grooves 20b, 21b for the lower clamping form 19, between which extends a respective peripheral rebate 22a, 22b.
These grooves 20a, 20b, 21a, 21b and rebates 22a, 22b are, firstly, such that in the position with the junction faces 18a, 19a of the two clamping forms 18, 19 joined two joined grooves 20a-20b, 21a-21b delimit a clamping duct for a profile P and the joined rebates 22a-22b define a bending bearing surface for said profile.
Moreover, the arrangement of said grooves and rebate, in association with one or the other rule 16, 17, enables the bending of a length of profile P:
In the example represented, and in order to fulfil the aforementioned functions, the faces F20, F21 for introduction of the profiles P of the two grooves 20a, 21a or 20b, 21b formed on a clamping form 18 or 19 (i.e. the faces of these grooves with the rebate 22a or 22b between them), delimit between them an angle α equal to 270°, which can be increased up to 315°.
Each clamping form 18, 19 further includes an axial circular opening 23 in which splines 24 are formed.
These clamping forms 18, 19 are further adapted:
To this end, and firstly, the lower clamping form 19 is fixed in terms of movement in translation along the bending axis (z) and rests on fixed horizontal friction ring 25.
For its part, the upper clamping form 18 is mobile in terms of movement in translation along the bending axis (z) and to this end is mounted by means of a bearing 28 below the lower end of a vertically arranged rod 26a of an actuator 26 the body of which is fastened to a bridge 27 extending above the upper table 7 of the first carriage 3, said actuator being adapted:
For their part, the means for driving the two clamping forms 18, 19 in rotation include a vertical shaft 29 that extends along the bending axis (z), is engaged in the openings 23 and has ribs 30 conjugate with the splines 24, said shaft being driven in rotation by a gearmotor 31a-31b carried by the first carriage 3 between the upper table 7 and a horizontal lower table 32 of the latter carriage.
Moreover, the rotary shaft 29 is constrained to move in translation with the vertical rod 33a of an actuator 33 the body of which is disposed on the lower table 32 of the first carriage 3, said actuator being adapted:
According to this principle, the rotary shaft 29 has the function of indexing the relative position in rotation of the two clamping forms 18, 19, at the same time as enabling, in the spaced-apart position of the clamping forms 18, 19, movement of the first carriage 3 along the axis Y for changing the direction of bending the profile P.
The bending machine represented in
This bending machine comprises, firstly, a frame 41 including a vertical front plate 42. This bending machine further comprises a first carriage able to slide vertically along a vertical axis Z relative to the frame 41 and consisting of a vertical table 43 having vertical rails such as 44 adapted to slide in vertical slides such as 45 on the front plate 42 of the frame 41.
This bending machine also includes a generally stirrup-shaped second carriage 46 consisting of:
This bending machine also comprises a third carriage 51 able to slide horizontally along the horizontal axis Y relative to the upper table 50 of the second carriage 46 and including a horizontal plate 52 on the undersurface of which are provided horizontal rails such as 53 able to slide in slides 54 provided on the upper table 50 of the second carriage 46.
This third carriage 51 also includes two parallel vertical plates 55, 56 on the horizontal plate 52, each provided toward its upper end with a slide 57 that extends horizontally along an axis X perpendicular to the axis Y and thus parallel to the axis (x) of movement of the profile P.
Each of these slides 57 is adapted to house a sliding rail 58 for supporting a guide rule 59, 60, each of said rules including two superposed grooves such as 60a, 60b with different sections adapted to house profiles with different sections.
The tool of this bending machine consists of three clamping forms 62, 63, 64 of identical design to the clamping forms 18, 19 described hereinabove, i.e. clamping forms of which each junction face has two rectilinear grooves with a longitudinal axis perpendicular to the bending radius between which extends a peripheral rebate. These clamping forms consist of:
Moreover, to enable bending of profiles P with different sections, the grooves such as 67a, 67b and the rebates such as 68a, 68b formed on the junction face 63a of the upper clamping form 63 and the upper junction face 65a of the intermediate clamping form 62 have dimensions different from those of the grooves such as 69a, 69b and the rebates such as 70a, 70b provided in the junction face 64a of the lower clamping form 64 and the lower junction face 66a of the intermediate clamping form 62.
As before, these three clamping forms 62-64 are adapted:
To this end, and firstly, the lower clamping form 64 is fixed in terms of movement in translation along the bending axis (z) and rests on a fixed horizontal friction ring 71.
Moreover, spring means such as two coil springs 72, 73 are disposed between the respective junction faces 63a-65a, 64a-66a of the clamping forms to spring-load the intermediate clamping form 62 and the upper clamping form 63 toward their spaced-apart position.
The clamping forms 62-64 are held in their joined position by means of a vertical shaft 74 that extends along the bending axis (z), is engaged in the openings 23 provided in said clamping forms and has ribs 75 conjugate with the splines 24, said shaft having:
Moreover, this shaft 74 is driven in rotation by a gearmotor 77a, 77b carried by the second carriage 46 under its upper table 50.
According to this principle, the rotary shaft 74 has the functions of indexing the relative position in rotation of the three clamping forms 62-64 and holding said clamping forms in their joined position against the action of the spring means 72, 73.
Note further that in this second embodiment the change of bending direction is effected by virtue of the facility for movement of the tool relative to the profile P along the axes Y and Z.
Moreover, in this variant the two rules are produced from a single rectangular parallelepiped-shaped block 81 machined to have:
In this variant, the rules 82, 83 are produced in a single block 81 carried by a single carriage 80 the movement of which requires only one guide and only one feed control system, instead of the two guides and the two control systems required for present-day machines enabling bending in two directions.
It is to be noted that this variant can also be implemented on a bending machine conforming to the first embodiment subject to providing that machine with means for moving the first carriage 3 along an axis Z.
a to 9d show the operation of a bending machine as represented in
Firstly, the angular position of the clamping forms 18, 19 is indexed to make the axis (x) coincide with the longitudinal axis of the pair of grooves appropriate for the selected bending direction, in this example the grooves 21a-21b (see
Bending is then effected, in conjunction with the corresponding rule 17, by rotating the two clamping forms 18, 19 about the bending axis (z) in the joined position of said clamping forms (see
As shown in
This illustration highlights one of the essential advantages of the bending machine of the invention, namely the possibility of producing bending angles greater than 180° in both bending directions.
Number | Date | Country | Kind |
---|---|---|---|
07 07206 | Oct 2007 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/FR2008/001436 | 10/14/2008 | WO | 00 | 4/13/2010 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2009/087297 | 7/16/2009 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4232813 | Eaton | Nov 1980 | A |
4485658 | Stewart et al. | Dec 1984 | A |
4563891 | Schwarze | Jan 1986 | A |
4581917 | Moriyama et al. | Apr 1986 | A |
4658624 | Ridgway et al. | Apr 1987 | A |
5461893 | Tyler | Oct 1995 | A |
5495740 | Schwarze | Mar 1996 | A |
6134932 | Marque et al. | Oct 2000 | A |
6185969 | Jaubert | Feb 2001 | B1 |
6192728 | Hu | Feb 2001 | B1 |
7234333 | Maier et al. | Jun 2007 | B2 |
7254972 | Wang | Aug 2007 | B1 |
7360385 | Wohlenhaus et al. | Apr 2008 | B1 |
20040200253 | Schmauder et al. | Oct 2004 | A1 |
20050172690 | Cappello et al. | Aug 2005 | A1 |
20050241356 | Yogo | Nov 2005 | A1 |
20060027008 | Caporusso | Feb 2006 | A1 |
20070246899 | Haimer | Oct 2007 | A1 |
20080236234 | Rusch | Oct 2008 | A1 |
Number | Date | Country |
---|---|---|
2117745 | Jul 1972 | EP |
0108193 | May 1984 | EP |
0737526 | Oct 1996 | EP |
1561522 | Aug 2005 | EP |
1591174 | Nov 2005 | EP |
2117745 | Jul 1972 | FR |
Number | Date | Country | |
---|---|---|---|
20100223971 A1 | Sep 2010 | US |