EP3154722B1 - Biegepresse mit biegeeinheit sowie verfahren zur umformung - Google Patents

Biegepresse mit biegeeinheit sowie verfahren zur umformung Download PDF

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Publication number
EP3154722B1
EP3154722B1 EP15733602.5A EP15733602A EP3154722B1 EP 3154722 B1 EP3154722 B1 EP 3154722B1 EP 15733602 A EP15733602 A EP 15733602A EP 3154722 B1 EP3154722 B1 EP 3154722B1
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EP
European Patent Office
Prior art keywords
bending
workpiece
tool
bending tool
pivot axis
Prior art date
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Active
Application number
EP15733602.5A
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German (de)
English (en)
French (fr)
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EP3154722A1 (de
Inventor
Wolfgang Aigner
Stefano Speziali
Thomas Weiss
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Trumpf Maschinen Austria GmbH and Co KG
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Trumpf Maschinen Austria GmbH and Co KG
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Publication of EP3154722A1 publication Critical patent/EP3154722A1/de
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D5/00Bending sheet metal along straight lines, e.g. to form simple curves
    • B21D5/04Bending sheet metal along straight lines, e.g. to form simple curves on brakes making use of clamping means on one side of the work
    • B21D5/045With a wiping movement of the bending blade
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D5/00Bending sheet metal along straight lines, e.g. to form simple curves
    • B21D5/04Bending sheet metal along straight lines, e.g. to form simple curves on brakes making use of clamping means on one side of the work
    • B21D5/042With a rotational movement of the bending blade
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D7/00Bending rods, profiles, or tubes
    • B21D7/02Bending rods, profiles, or tubes over a stationary forming member; by use of a swinging forming member or abutment
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D7/00Bending rods, profiles, or tubes
    • B21D7/06Bending rods, profiles, or tubes in press brakes or between rams and anvils or abutments; Pliers with forming dies

Definitions

  • the invention relates to a bending press and a method for forming, in particular bending, a sheet to a workpiece, as described in claims 1 and 12.
  • a bending press or such a method are for example in the DE - A-3837603 disclosed.
  • the bending press comprises a stationary machine frame, a lower clamping bar with at least one lower clamping jaw held thereon, which has at least one clamping jaw a first forming edge, and an upper clamping bar.
  • At the upper clamping bar at least one upper clamping jaw is held thereon, which at least one clamping jaw has a second forming edge.
  • the upper clamping bar is adjustable relative to the machine frame relative to a clamping bar guide by means of a drive arrangement, in order to be able to clamp the workpiece to be produced between the two clamping jaws.
  • the at least one lower jaw has a lower clamping surface on its end region facing the upper clamping jaw.
  • the at least one upper jaw has an upper clamping surface on its end region facing the lower clamping jaw, wherein the two clamping surfaces define a workpiece support plane for the workpiece to be produced when the position adjoins one another.
  • the bending unit comprises bending tools which have a bending edge. Furthermore, the bending tools are arranged on a bending beam, wherein the bending beam is adjustable relative to the machine frame on bending beam guides designed as linear guides by means of a bending beam drive. The bending tools are pivotable about a parallel with respect to one of the forming edges aligned pivot axis.
  • the bending beam has a C-shaped cross section, wherein the bending tool is pivotably arranged on the two legs on the inside. For both Abkantraumen so a separate bending tool is necessary.
  • the DE 38 37 603 A1 describes a sheet metal bending machine with a vertically movable upper beam and a workpiece carrying bending table.
  • the workpiece is bent either by a pivoting movement of a bending beam with a bending tool held thereon about a bending pivot axis or by means of a bending bending operation by a Hubtownnver ein the bending beam.
  • the bending pivot axis for the bending beam is arranged in the region in front of the bending edge of the bending table or in front of the upper beam as a function of the material thickness of the workpiece.
  • the bending cheek is pivoted in a fixed radius about the bending pivot axis for the bending process, depending on the bending direction and the associated arrangement of the bending cheek either above the workpiece or below the workpiece which is pivoted to the bending cheek bending tool is pivoted accordingly.
  • the bending cheek is moved together with the bending tool only for the bending process in a plane perpendicular to the bending table level.
  • the bending tool projects upwards on the workpiece. If a bending operation is to be performed from top to bottom, the bending beam must be swiveled by 180 ° so that it is above the bending table and thus the workpiece.
  • the pivoting movement of the bending cheek an alignment of the bending tool is achieved downwards in the direction of the workpiece. Subsequently, the bending process can be done from top to bottom.
  • the present invention has for its object to provide a bending press with a bending unit with a bending tool and to provide a method with which universal forming operations, in particular folds, are possible.
  • the advantage achieved by the features of claim 1 lies in the fact that the possibility is created to arrange the pivot axis of a bending tool and its bending jaws facing the bending edge either above or below the workpiece support level and align accordingly. So can the bending beam together with it arranged bending tool as far as the workpiece support plane in the vertical direction to be arranged distanced, so that a sufficient space behind the jaws for arranging and / or receiving the workpiece to be formed is available. Thus, depending on the bending or Abkantides to be carried out, the bending tool together with the bending tool carrying the bending beam can be adjusted in a position located on both sides of the workpiece support plane positions.
  • the bending tool can be aligned with its bending edge in the direction of the respective forming edge of one of the lower or upper clamping jaws.
  • Aus GmbH which can be aligned by the corresponding pivoting movement about the pivot axis, the bending edge to the respective bending direction and / or Abkantides.
  • the leg to be bent is preferably pivoted onto the side facing away from the bending tool and thus into the free space behind the clamping jaws.
  • a torsion and thus the pivoting movement can be transmitted directly from the bending beam to the bending tool arranged thereon.
  • a double function can be taken over by the bending beam formed as a shaft, since this one hand, the bending tool contributes and supported accordingly and on the other hand, a pivoting movement is made possible by the axis defined by the shaft pivot axis for the bending tool.
  • Another advantage is an embodiment according to claim 3, since it can be dispensed with additional drive means directly in the region of the bending tool for this, as a direct torque transfer via the shaft takes place on the bending tool.
  • additional drive means directly in the region of the bending tool for this, as a direct torque transfer via the shaft takes place on the bending tool.
  • the possibility is thus created to achieve a relative positional fixation of the bending edge with respect to the forming edges on the clamping jaws.
  • a corresponding preset angular position of a plane defined by the bending edge and the pivot axis tool plane with respect to the workpiece support plane and / or the bending tool adjustment plane at a sole adjustment movement of the bending beam in the bending tool adjustment plane an adjustment can be performed with unchanged angular position.
  • a rigid, designed as an axis bending beam for the storage of the bending tool or its bending tool elements can be created.
  • An independent pivoting and / or adjusting movement of the individual bending tool elements can thus take place about the supporting axis.
  • an individual adjustment and pre-positioning of the individual bending tool elements required for the bending and / or bending process to be carried out can take place.
  • the object of the invention is, however, independently solved by a method for forming, in particular bending, a sheet to a workpiece according to the features indicated in claim 12.
  • a method for forming, in particular bending, a sheet to a workpiece according to the features indicated in claim 12.
  • the advantages resulting from the combination of features of this claim are that this creates the possibility of arranging the pivot axis of the one bending tool and its bending edge facing the clamping jaws either above or below the workpiece support plane and to be able to align accordingly.
  • the bending beam together with the arranged thereon Bending tool are arranged so far distanced from the workpiece support plane in the vertical direction, so that a sufficient space is available behind the jaws for arranging the workpiece to be formed.
  • the bending tool together with the bending tool carrying the bending beam can be adjusted in a position located on both sides of the workpiece support plane positions. Subsequently, the bending tool can be aligned with its bending edge in the direction of the respective forming edge of the jaws. This can be found with one and the same bending tool Aus GmbH, which can be aligned by the corresponding pivoting movement about the pivot axis, the bending edge to the respective bending direction and / or Abkantraum. As a result of the superimposed, simultaneous adjustment and pivoting movement of the bending tool, a constant contact of the bending edge on the workpiece can be achieved. This surface damage can be almost avoided or even switched off.
  • a procedure according to the features specified in claim 13 is advantageous because it allows a slight overbending and / or folding of the angled leg can be achieved. Thus, even with an elastic springback the predetermined bending angle of the leg can be maintained.
  • a further advantageous procedure is described in claim 14, whereby a torsion transmission and thus the pivoting movement can be transmitted directly from the bending beam to the bending tool arranged thereon.
  • the bending beam designed as a shaft, since on the one hand it carries the bending tool and accordingly supports it, and on the other hand a pivoting movement about the pivot axis defined by the shaft is made possible for the bending tool.
  • a production plant 1 is shown in a highly schematically simplified representation, which is formed in the present case in particular for the swivel bending or bending of bending to be produced from sheet metal workpieces 2.
  • the manufacturing plant 1 used for bending in the present case comprises a bending press 3, in particular a press which is designed to clamp the workpieces 2 or workpieces to be produced from the sheet metal between a clamping tool 4 that is adjustable relative to one another.
  • the clamping tool 4 comprises in the present embodiment, at least one, but usually a plurality of lower jaws 5 and at least one, but usually more cooperating upper jaws 6.
  • the at least one upper jaw 6 is arranged above the workpiece to be manufactured 2 on the bending press 3 and there also held accordingly, in particular clamped.
  • the at least one lower jaw 5 is held on the bending press 3, in particular clamped.
  • a machine frame 7 of the bending press 3 comprises, for example, vertically upstanding from a base plate 8 and mutually parallel side cheeks 9, 10. These are preferably interconnected by a solid, formed for example of a sheet metal part cross member 11 at their distance from the bottom plate 8 end regions ,
  • the machine frame 7 is usually a solid, preferably on a hall floor fixed component of the bending press.
  • the side cheeks 9, 10 may be formed to form a clearance for the forming of the workpiece 2 preferably in approximately C-shaped, wherein attached to front end faces 12 of bottom legs of the side cheeks 9, 10 a fixed, in particular on the bottom plate 8 upstanding lower clamping bar 13 is, which can also be referred to as a pressing bar.
  • This stationary and fixed clamping bar 13 can also be referred to as a clamping table, are arranged on the parts of the bending tool 4 and also held.
  • a further upper clamping bar 16 in particular a pressure bar, which is relatively adjustable relative to the lower clamping bar 13, is guided on the leg remote from the base plate 8 in clamping bar guides 15.
  • the clamping bar guides 15 are usually designed as linear guides in a variety of embodiments.
  • This further clamping bar 16 may also be referred to as a pressing bar be, but which is guided relative to the machine frame 7 displaceable on this.
  • On opposite, mutually parallel end surfaces 17, 18 of the two clamping bars 13, 16 jaw receiving 19, 20 are arranged for assembly with the clamping tools 4.
  • the or the clamping tools 4 can also be held with the interposition of an adapter not shown on the jaw receiving 19, 20.
  • the bending press 3 shown has as drive arrangement 21 for the adjustable upper clamping bar 16, namely the pressure bar, e.g. two powered by electric energy drive means 22, which are conductively connected to a fed from a power grid 23 control device 24.
  • the operation of the bending press 3 can be controlled via a line-connected input terminal 25 connected to the control device 24.
  • the drive means 22 are preferably electromotively operated spindle drives 26, as they are generally known, of which adjusting means 27 for a reversible actuating movement of the upper clamping bar 16 formed by the pressure bar with this, for example, are drive-connected.
  • the manufacturing plant 1 can also be simplified here in the Fig. 2 comprise manipulator 28, which at least a piece thereof removes from a schematically indicated supply stack 29 of sheets to be deformed orproofkantenden and spends in the work area of the bending press 3.
  • the manipulator 28 in turn comprises a gripping tongs 30, shown in a simplified manner, which in turn has gripping fingers 31, 32.
  • the gripping fingers 31, 32 each have clamping surfaces on the side facing the workpiece 2 to be produced.
  • the gripper fingers 31, 32 of the gripping tongs 30 is a corresponding gripping and later ensured due to the clamping movement sufficient support for the workpiece to be produced from the sheet 2.
  • the two clamping bars 13, 16, in particular their tool holders 19, 20, or the clamping tool 4 held thereon with his or her lower and upper jaws 5, 6, when viewed in the longitudinal direction of the clamping bar thirteenth , 16 define an adjustment plane 33 extending therebetween.
  • the adjustment plane 33 preferably runs centrally with respect to the clamping bars 13, 16 or the jaw receivers 19, 20 arranged on them.
  • a vertically oriented plane is understood here.
  • the two jaws 5, 6 form a clamping region 34 between them at mutually facing ends.
  • Mutually facing lower and upper clamping surfaces 35, 36 of the two clamping jaws 5, 6 are preferably aligned at right angles with respect to the adjusting plane 33.
  • An additional support table with a support surface may be arranged in the region of the front of the bending press 3, but is not shown in detail.
  • the support surface can be arranged in the same plane as the lower clamping surface 35 of the lower jaw 5. This is used in larger sheets as additional support to prevent accidental kinking, especially with thin sheets.
  • a bending region 37 is understood as meaning the region which serves to form the workpiece 2 to be produced from the sheet, which is usually still flat, or to further process an already pre-formed workpiece 2 by forming at least one additional bend.
  • the bending region 37 is usually spaced from the Verstellbene 33 and is formed by end portions of at least one of the two jaws 5 and / or 6. In the present embodiment, the bending region 37 is arranged on the side facing away from the manipulator 28 or the operator side of the clamping bar 13, 16. Thus within the machine frame 7.
  • the bending region 37 usually forms a preferably rectilinear bending line on the workpiece 2 to be produced, wherein on both sides of this each leg forms as a result of the bending process carried out.
  • the two legs enclose between them a bending angle.
  • This bending angle is measured in a reference plane aligned perpendicular to the bending line.
  • the reference plane for its part, is furthermore preferably also aligned with respect to the adjustment plane 33 in the vertical direction.
  • the machine frame 7 of the bending press 3 is shown only very simplified, and it is also possible to use different embodiments thereof. So could e.g. the machine frame 7 and the machine body may be formed with a free stator passage. In this case, the jaw receivers 19, 20 could be received between the side walls 9, 10 and side panels. In another embodiment of the machine frame 7 or of the machine body, no free stator passage is possible, as a result of which the clamping jaw receptacles 19, 20 can not be received between the side cheeks 9, 10 or side parts.
  • the bending press 3 of the manufacturing plant 1 also includes a bending unit 38, which may also be referred to as a bending unit.
  • a bending unit 38 which may also be referred to as a bending unit. This is simplified in the Fig. 2 indicated and can be adjusted relative to the machine frame 7 in a preferably parallel with respect to the Verstellbene 33 aligned bending tool adjustment plane 39.
  • the representation of the bending unit 38 and its components has been omitted in the FIGURE.
  • the lower jaw 5 or the upper jaw 6 forms the bending region 37 from.
  • the lower jaw 5 forms a first Umformkante or has this.
  • the upper jaw 6 forms or has a second forming edge.
  • the at least one lower clamping jaw 5 has a lower clamping surface 35 at its end region facing the upper clamping jaw 6.
  • the at least one upper clamping jaw 6 has an upper clamping surface 36 at its end region facing the lower clamping jaw 5.
  • the two clamping surfaces 35, 36 define in a contiguous position a workpiece support plane 40 for the workpiece 2 to be produced.
  • the bending unit 38 comprises a bending tool 41, which has a bending edge 42.
  • the bending tool 41 is arranged on a bending beam 43, wherein the bending beam 43 is adjustable relative to the machine frame 7 on bent beam guides 44 designed as linear guides by means of a bending beam drive 45.
  • the bending tool 41 is pivotable about a parallel with respect to one of the forming edges aligned pivot axis 46.
  • a pivot axis is understood to be a central axis and not a physical component. The pivotal axis forming different components will be described in more detail below.
  • the bending beam guides 44 are preferably arranged or formed in the region of the two side cheeks 9, 10 and are thus arranged distanced from one another in the direction of the bending region 37 or the forming edges.
  • the bending beam 43 is guided on the bending beam guides 44 at its end portions which are also distanced from one another in the direction of the bending region 37 or the forming edges. This can be created behind the two jaws 5, 6 sufficient clearance for the workpiece 2 to be produced.
  • the bending beam 43 As a result of the vertical adjustment possibility of the bending beam 43, a large working area can be created for the leg of the workpiece 2 to be folded, since no bending beam 43 with the bending tool 41 is arranged directly in the region of the workpiece support plane 40 behind the clamping jaws 5, 6 before the beginning of the forming process , Before the start of the bending and / or bending operation, the bending beam 43 is either above or below the workpiece support plane 40.
  • the bending unit 38 with the workpiece 2 to be clamped clamped holding jaws 5, 6 is in the following Fig. 3 described in more detail.
  • the X-coordinate represents the insertion direction of the sheet to be formed and is aligned at right angles with respect to the adjustment plane 33.
  • the Y-coordinate represents the vertical direction and is aligned at right angles with respect to the workpiece support plane 40.
  • the Z coordinate in the direction of the bending region 37 is aligned.
  • FIG. 3 an optionally independent embodiment of the bending unit 38 is shown, wherein for like parts the same reference numerals or component designations as in the preceding Fig. 1 and 2 be used. In order to avoid unnecessary repetition, the detailed description in the previous ones will be used Fig. 1 and 2 referred or referred.
  • the bending unit 38 these or its components have been shown only greatly simplified and stylized. Furthermore, in this embodiment, the bending unit 38 on the side facing away from the operator not shown side of the jaws 5, 6 are arranged. The bending beam guides 44 are also seen in the direction of the bending region 37, spaced from each other. Between these, in turn, the bending beam 43 extends with the bending tool 41 arranged thereon.
  • the bending beam guide 44 is preferably arranged in the region of the two side cheeks 9, 10 so as to allow unhindered space for arranging the workpiece 2 or the sheet to be produced starting from the two clamping jaws 5, 6 between the bending beam guides 44 in the longitudinal extent of the bending region 37 to have.
  • the bending beam guide 44 may be formed by a variety of known prior art guide units and / or guide assemblies. It is essential to form an exact linear guide for the bending beam 43.
  • the bending beam guides 44 forming the guideways serve to be able to guide the bending beam 43 in an exact linear guide along the bending tool adjustment plane 39 for the exact execution of a bending operation or folding operation.
  • the choice of the bending beam drive 45 can also be made according to the drive means known in the prior art.
  • cylinder piston arrangements, linear drives, traction drives or the like could be used.
  • pivot axis 46 for the bending tool 41 forms the central pivot base and / or the pivot center for the bending tool 41.
  • the bending unit 38 includes the bending tool 41, which are pivoted about the pivot axis 46 in different angular position with respect to this seen in the circumferential direction around it can. Furthermore, the pivot axis 46 and thus the bending beam 43 can be displaced both into a position that is relative to the workpiece support surface 40 above the workpiece support plane 40 and into a position located below the workpiece support plane 40. This is already simplified in the Fig. 2 indicated.
  • the possibility is created to shift the bending tool 41 to the respective side of the workpiece support surface 40, depending on the bending process to be carried out or the direction of descent.
  • the bending tool adjustment plane 39 is preferably oriented parallel to the bending region 37 or parallel to one of the two forming edges of the clamping jaws 5 and / or 6 and parallel to the adjustment plane 33, an equal horizontal distance over the entire vertical extent or Vertical extension of the bending tool adjustment plane 39 between this and the bending region 37 created.
  • the workpiece support plane 40 is arranged or formed in a horizontal plane, in which case the bending tool adjustment plane 39 is preferably aligned at right angles thereto.
  • a different horizontal distance can be formed. This can be created by the oblique guidance of the bending beam 43 a more universal training and formability of the bending unit 38.
  • the bending unit 38 with a single Bending tool 41 a bending and / or Abkantvorgang both in a direction above the workpiece support level 40 and a direction below the workpiece support level 40 are performed. If the workpiece support plane 40 is used as the basis or zero plane, the pivot axis 46 can be adjusted in the Y direction in both the minus direction and in the plus direction.
  • the bending tool 41 can thus be aligned with the clamping jaws 5, 6 facing bending edge 42 downward in the direction of the first Umformkante at a located above the workpiece support plane 40 position of the pivot axis 46 be. In this position, the sheet metal held in the clamping region 34 or the workpiece 2 to be produced can be formed into a position located below the workpiece support plane 40, in particular be folded.
  • the bending tool 41 If the bending tool 41 is adjusted with its pivot axis 46 into a position of the pivot axis 46 located below the workpiece support plane 40, its bending edge 42 facing the clamping jaws 5, 6 can be directed upward in the direction of a corresponding adjustment and / or pivoting movement of the bending tool 41 be aligned to the second forming edge. In this position, with the same bending tool 41, the leg of the workpiece 2 to be formed can be reshaped into a position located above the workpiece support plane 40.
  • the bending beam 43 is formed as a corporeal wave.
  • the shaft defines the pivot axis 46 for the bending tool 41.
  • the bending tool 41 may be rotatably connected to the shaft or rotatably coupled thereto. This makes it possible, when the shaft is drivingly connected to a pivot drive, not shown, to pivot in its angular position about the pivot axis 46 and / or to rotate. Since the bending tool 41 can be non-rotatably connected to the shaft or can be rotatably coupled thereto, the orientation and position of the bending edge 42 can be effected by means of the pivoting drive to the respective bending and / or bending operation to be performed.
  • the shaft and thus the bending beam 43 formed by the latter can be adjusted in a translatory adjusting movement in the bending tool adjustment plane 39.
  • the additional rotary pivoting movement and / or rotational movement of the bending tool 41 with its bending edge 42 takes place directly about the pivot axis 46.
  • the rotary movement and / or pivoting movement is transmitted from the pivot drive to the shaft and subsequently to the bending tool 41.
  • a corresponding, rotationally fixed coupling and / or holder so a universal use of the bending unit 38 can be achieved.
  • the bending beam 43 with the bending tool 41 is arranged either below the workpiece support plane 40 or above the workpiece support plane 40 even before the clamped holding of the sheet for the workpiece 2 to be produced. Subsequently, the sheet for the production of the workpiece 2 between the spaced apart arranged jaws 5, 6 is inserted and positioned accordingly.
  • the adjusting movement of the bending tool 41 in the direction of the bending tool adjustment plane 39 is ended and a further pivoting of the bending tool 41 about the pivot axis 46 is performed. This can be done overpressing and after the springback of the exact bending angle can be achieved.
  • the pivot drive can be designed such that it holds the shaft with respect to their relative position about the pivot axis 46. Positioned by this positional fixing of the bending tool 41 about the pivot axis 46 and thus its bending edge 42, the possibility is created to adjust a bending beam 43 in the bending beam guide 44 while maintaining the distance between the bending edge 42 and the bending tool adjustment plane 39 unchanged.
  • pivot axis 46 is arranged to extend in the bending work train adjustment plane 39 defined by the bending beam guides 44. So that can an eccentric or off-center arrangement of the pivot axis 46 with respect to the bending beam guides 44 can be avoided.
  • FIG. 4 an optionally independent embodiment of the bending unit 38, in particular its bending tool 41 is shown, wherein for like parts the same reference numerals or component designations as in the preceding Fig. 1 to 3 be used. In order to avoid unnecessary repetition, the detailed description in the previous ones will be used Fig. 1 to 3 referred or referred.
  • the bending tool 41 comprises a plurality of bending tool elements 47 arranged one behind the other in the longitudinal extent of the pivot axis. This creates the possibility of being able to tune the length of the inserted bending edge 42 of the bending tool 41 to the respective length of the bending region 37 by arranging several bending tool elements 47 one behind the other.
  • the bending tool elements 47 are rotatably connected in mutually different angular positions with the shaft or coupled with this rotation. By choosing the different angular positions relative to one another, some of the bending edges 42 can be used for the bending process, but bending tool elements 47 arranged adjacent thereto are not brought into contact with the workpiece 2 to be produced.
  • the bending beam 43 itself is designed as a supporting axis and not as a supporting shaft.
  • the axis is held against rotation on the bending beam guide 44 and adjustable even in the bending tool adjustment plane 39 by the bending beam drive 45, as has already been described above for the shaft.
  • the bending tool 41 in turn is formed from individual bending tool elements 47, at least some of the bending tool elements 47 can each be drive-connected with their own adjusting drive 48.
  • the at least one adjusting drive 48 could be arranged between the supporting axle and the respective bending tool element 47.
  • the adjustment 48 is indicated in simplified dashed lines and may be formed by a wide variety of adjustment and / or drive means. On the representation of the power supply and other drive details was omitted for the sake of clarity.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Bending Of Plates, Rods, And Pipes (AREA)
  • Braking Arrangements (AREA)
EP15733602.5A 2014-06-10 2015-05-21 Biegepresse mit biegeeinheit sowie verfahren zur umformung Active EP3154722B1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
ATA50398/2014A AT515280B1 (de) 2014-06-10 2014-06-10 Biegepresse mit Biegeeinheit sowie Verfahren zur Umformung
PCT/AT2015/050130 WO2015188208A1 (de) 2014-06-10 2015-05-21 Biegepresse mit biegeeinheit sowie verfahren zur umformung

Publications (2)

Publication Number Publication Date
EP3154722A1 EP3154722A1 (de) 2017-04-19
EP3154722B1 true EP3154722B1 (de) 2018-04-11

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US (1) US10464115B2 (zh)
EP (1) EP3154722B1 (zh)
CN (1) CN106660095B (zh)
AT (1) AT515280B1 (zh)
ES (1) ES2676582T3 (zh)
TR (1) TR201809784T4 (zh)
WO (1) WO2015188208A1 (zh)

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CN106180301B (zh) * 2016-09-27 2018-05-18 东莞阿李自动化股份有限公司 一种软连接整形装置
CN107377697A (zh) * 2017-07-19 2017-11-24 奥美森智能装备股份有限公司 一种金属板材折弯机构
CN109127796A (zh) * 2018-08-30 2019-01-04 安徽擎天伟嘉装备制造有限公司 一种冰箱外壳迷宫槽的数控成型装置及其成型方法
CN111299440A (zh) * 2020-04-07 2020-06-19 安徽普瓦尼尼智能制造股份有限公司 一种金属板材柔性折弯用上料夹紧装置
CN114433671B (zh) * 2022-04-12 2022-06-28 安徽建筑大学 一种智能楼宇控制器壳体折弯设备
CN116586477B (zh) * 2023-07-06 2023-09-22 扬州东安电气有限公司 一种配电柜加工用折弯机

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US20170189951A1 (en) 2017-07-06
AT515280B1 (de) 2015-08-15
AT515280A4 (de) 2015-08-15
EP3154722A1 (de) 2017-04-19
CN106660095A (zh) 2017-05-10
WO2015188208A1 (de) 2015-12-17
ES2676582T3 (es) 2018-07-23
TR201809784T4 (tr) 2018-07-23
US10464115B2 (en) 2019-11-05
CN106660095B (zh) 2019-04-23

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