• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a production plant (1), in particular for free - form bending of workpieces (2) to be produced from sheet metal, comprising a bending press (3) with a machine frame (7) and press beams (13, 16) and on the press beams (13, 16 ) arranged tool holders (19, 20) for a bending tool (4), a tool store (30), a Hinteranschlageinheit (31) with a stop element (32) and a manipulation device (33) for moving the bending tool (4) between the tool memory (30 ) and the tool holders (19, 20). The stop element (32) and the manipulation device (33) are arranged opposite one another on a common support (34) and in mutually opposite orientation and are rotatably mounted about a pivot axis (35). The carrier (34) is pivotable from a first position, in which the stop element (32) facing the bending tool (4) held in the tool holders (19, 20), in a second position in which the manipulation device (33) to the in the tool holders (19, 20) held bending tool (4) is facing.
    公开号:AT511078A4
    申请号:T6582011
    申请日:2011-05-10
    公开日:2012-09-15
    发明作者:
    申请人:Trumpf Maschinen Austria Gmbh;
    IPC主号:
    专利说明:

    * * 1
    - 1 -
    The invention relates to a production plant, in particular for the free-form bending of workpieces to be produced from sheet metal, with a tool change system, as described in claim 1.
    From CH 668 035 A5 a manufacturing plant for bending to be produced from sheet metal workpieces with a bending press, in which the tool bar receptacles for a bending tool with at least one bending punch and at least one bending die are known. On the side facing away from an operator side of the press bar a tool storage is located behind the upper press bar. The bending tools to be stored are also arranged one behind the other in the direction of the depth of the machine frame in a hanging arrangement at the designated tool storage locations. Furthermore, the production unit comprises a back stop unit with a stop element, which serves to position the sheet to be processed on the side of the press bars facing away from the operating side. The back stop unit further comprises a positioning or traversing device with which the back stop unit and, connected thereto, the stop element can be moved in accordance with the desired bending position for the sheet metal. On the stop element support arms are further pivotally mounted about a horizontal axis. At the ends of the support arms respectively retaining bolts are arranged, which can be used in recesses in the respective bending tool. A further embodiment provides for an arm projecting vertically beyond the stop element, from which a driving pin projects for manipulation of the bending tool in the direction of the press beams. The disadvantage here is that the one or more in the vicinity of the stop element arranged support arms limit the manipulation space of the Hinteranschlageinheit.
    Another system for processing plate material has become known from DE 692 03 307 T2. In a first embodiment, the bending tool extends
    f * * · · «· I | I ····································································································. * · -2-consisting of upper tool and lower tool almost over the entire width of the bending press and can be moved together as a unit from the also extending over almost the entire width of the kickback unit from its working position to a storage position on the side walls. For this purpose, the stop member near the stop surface on a vertically upstanding locking pin, which can be used in a base plate of the tool assembly. In addition, the stop member may be supported by a support plate to support or support the weight of the entire tool assembly during its displacement from the working position to the storage position. In another embodiment (Figure 7), only the tool top is replaced and received by the back gauge unit. For this purpose, the back stop unit has a tool upper part holder, which is aligned in the same direction as the stop element. A gripper is inserted into a recess of the upper tool part and removed after loosening the jaw of the upper die of the press bar and spent by means of the Hinteranschlageinheit to a arranged on the side walls behind the upper press bar tool storage. A disadvantage of this embodiment is that the holder and clamping of the tool parts to be changed takes place in the immediate vicinity of the stop element and thereby in turn the manipulation space is limited in the region of the stop element.
    The present invention has for its object to provide a manufacturing facility in which the tool change can be performed quickly and easily and beyond sufficient free space for the manipulation of the sheet to be deformed in the region of the stop element is available.
    This object of the invention is solved by the features of claim 1. The resulting from the features of claim 1 advantage is that due to the arrangement of both the stop element and the manipulation device for holding individual components of the bending tool on a common carrier, but in opposite directions and in opposite directions, at selectively corresponding pivoting each of the auxiliary devices can be turned towards the press beam or the tool holders, depending on what is needed. For the bending process to be carried out, the stop element can thus be turned in a known manner towards the tool holders and thus to the sheet to be machined, without the manipulation device having a disturbing and space-restricting effect in this environment. By deliberately selected pivoting operation of the carrier by parts of Hinteranschlageinheit can be used for the corresponding tool change, the manipulation device or the bending tools to be changed. Again, the Auslangen can be found again with the smallest sizes, without having to take into account further protruding components in the tool removal from the tool holders. Due to the arrangement on a common carrier and the provision of a separate pivot axis can on either end of the carrier on the one hand, the stopper and on the other hand, the manipulation device are formed independently and, depending on the requirement, the respective element can be moved to the desired working position. The then not required component or element is then arranged distanced on the side facing away from the carrier or formed and is not in the working position located in the element or component in the way. The training or integration of the pivot axis of the carrier directly into the backgauge requires no additional high design effort and can be easily integrated with. Due to the currently available movement and adjustment of Hinteranschlageinheiten the integration of the manipulation device to a common carrier is easy and inexpensive to implement.
    Also advantageous is a further embodiment according to claim 2, as in a simple horizontally oriented pivoting movement of the Zuwendungsrichtung the stop element and the manipulation device is easy to carry out. With only a slight pivoting of the stop element about the pivot axis but also an inclination of the sheet to be processed can be adjusted before the forming process in the bending press so.
    Also advantageous is an embodiment according to claim 3, since the possibility is created by the hollow profile-shaped design of the pivot axis in the interior thereof, supply lines for actuating the manipulation device and / or the stop element to pass. Thus, free disturbing lines are avoided in the backgauge unit.
    Due to the construction according to claim 4, it is possible to perform a precise adjustment of the tubular member. Furthermore, this makes it possible to use a ball screw drive for the translational and / or rotational movement, which can preferably carry out these two movement forms at the same time. * * • * • * * * * * * * * * * * * * * * * * * * * * * * * * * *
    According to another embodiment variant according to claim 5, a simple coupling possibility of the bending tool with the manipulation device is thus created independently of the stop element.
    Also advantageous is a development according to claim 6, as can be used on already used and well-tried coupling or gripping options with which sufficient space and a sufficient support and clamping can be achieved.
    In the embodiment according to claim 7 it is advantageous that simultaneously with the gripping or the dome of the bending tool with the manipulation device also a release or decoupling of the clamped bending tool in the region of the press beams and / or the tool memory can be done.
    Through the development according to claim 8 ensures that sufficient space for the arrangement and freedom of movement of the Hinteranschlageinheit is created between the press bar and the rear end of the machine frame and still no additional space or space required for the arrangement of the tool storage. Thus, the tool storage can be easily located within the machine frame, without requiring additional space is required. Furthermore, as well as the transport of the respective bending tool between the tool holder and the tool storage is kept relatively short and compact. Thus, the tool change time is also shortened due to the short transport routes. Furthermore, it can also be used to load the tool storage from the back without the production process being disturbed or being interrupted in the area of the operating side.
    Due to the design according to claim 9, the arrangement of several bending tools can be done in a space-saving manner in the smallest space in almost one plane above the other.
    Also advantageous is an embodiment according to claim 10, as this also additionally a high memory density can be achieved over the existing space between the Seitenwan-parts of the machine frame.
    According to an embodiment as described in claim 11, the possibility of providing memory locations is thus created in a simple manner. This can be found with minimal footprint Auslangen and still be provided a variety of bending tools on the back of the machine frame.
    In this case, an embodiment according to claim 12 proves to be advantageous, since such a related component is created as a tool storage, which has sufficient stability for receiving a plurality of bending tools- Furthermore, there is also the possibility of subsequently designed as a support frame tool storage even easier on existing bending presses to install.
    According to an advantageous embodiment according to claim 13 can be dispensed with in addition to the high space and the associated high number of memory locations on the additional arrangement of intermediate elements for attachment.
    Finally, however, an embodiment as described in claim 14 advantageous because it provides the ability to relocate the tool storage relative to the machine position, so as to provide an unhindered access to the interior of the press for necessary maintenance or inspection activities , Furthermore, access to the interior of the bending press can thereby be prevented even when the tool store is in operation, in which case the tool store also serves to some extent as a schooling element.
    For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
    Each shows in a highly schematically simplified representation:
    Fig. 1 shows a manufacturing plant in front view;
    Figure 2 is a similar manufacturing plant as in Figure 1 with Hinteranschlageinheit and tool storage, in a diagrammatic view from behind ..;
    Fig. 3 shows a possible embodiment of a Hinteranschlageinheit, in side view.
    By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or identical component designations, the disclosures contained throughout the description corresponding to the same parts with the same reference numerals or the same component designations. · 99 9 «9 9 9 9 9 9 9 9 9 · 9 · 9 · 9 ··· ♦ 9 -6- tions can be transmitted. Also, the position information chosen in the description, such as - above, below, side, etc. related to the immediately described and illustrated figure and are mutatis mutandis transferred to the new situation in a change in position.
    FIGS. 1 to 3 show a production plant 1 for free-form bending of workpieces 2 to be produced from sheet metal in a highly schematically simplified representation.
    The production plant 1 comprises a bending press 3, in particular a press brake, for producing the workpieces 2 or workpieces between relatively adjustable bending tools 4, such as bending punch 5 and bending die 6. The bending punch 5 can also be referred to as upper tool and the bending die 6 as lower tool become.
    A machine frame 7 of the bending press 3 comprises, for example, a base plate 8, on which are vertically upstanding, mutually spaced in the transverse direction and parallel to each other side cheeks 9,10 are arranged. These are preferably connected to each other by a solid, formed for example from a sheet metal part cross member 11 at their distance from the bottom plate 8 end portions.
    The side cheeks 9, 10 are approximately C-shaped to form a free space for forming the workpiece 2, wherein a fixed, in particular on the bottom plate 8 aufstehender, press bar 13 is attached to front end faces 12 of bottom flanges of the side cheeks 9.10. This press bar 13 may also be referred to as a table bar. At Frontstimflächen 14 of the bottom plate 8 removed legs is in linear guides 15 a to the table beam forming press bar 13 relatively adjustable further press bar 16, in particular a pressure bar, guided guided. On opposite, parallel to each other extending end faces 17,18 of the two press beams 13, 16 are tool holders 19, 20 arranged and configured for assembly with the bending tools 4.
    The bending press 3 shown has, as a drive arrangement 21 for the adjustable press beam 16, namely the pressure beam, at least one, here two drive means 22, e.g. are fed with electrical energy from a power grid 23 and additionally can be connected to a control device 24 line connected. By way of example, the operation of the bending press 3 is controlled via a line-connected input terminal 25 connected to the control device 24. -7 - * · • * «*
    The drive means 22 may be e.g. to act electromotive spindle drives 26, as they are well known, of which adjusting means 27 for a reversible actuating movement of the upper beam bar 16 formed by the pressure bar with this, for example, are drivingly connected. Regardless of this, it would also be possible to form the drive means 22 by means of hydraulically and / or pneumatically actuatable actuating means. It can find cylinder-piston arrangements application. But it would also be other drive means, such as. Eccentric drives, toggle drives, rack drives, etc. conceivable.
    Further details required for the operation of such a bending press 3, such as safety devices, stop arrangements, control and measuring devices are omitted in the subject description to avoid unnecessary length of the description.
    Furthermore, the manufacturing plant 1 may also include a manipulator not shown here, which at least a piece of it takes from a supply stack of sheets to be deformed or abzukantenden and spends in the work area or the operating side of the bending press 3.
    Furthermore, it is shown here in simplified form that the bending tools 4, in particular the bending punch 5 and / or the bending die 6, can each have their own recesses 28, 29 for manipulating them. Manipulating the bending tool 4 is understood here to mean that this or its bending punch 5 and / or bending die 6 are automatically removed from a tool store 30 shown in simplified form in FIG. 2 and automatically moved to one of the tool receptacles 19, 20 of the press beams 13, 16 used there and clamped is held. It can also be spoken of a tool change system, with which the exchange operations can be performed with the necessary system parts.
    For exchanging corresponding bending tools 4, these are removed from the tool holders 19, 20 after the clamping holder of the bending tool or tools 4 and replaced by another bending tool 4. In this case, the bending tool 4 to be exchanged is brought back into the tool store 30 or the tool depot and stored in order to be removed there later for another bending operation and inserted into the tool receptacles 19, 20. For handling during the exchange process, the recesses 28, 29 serve in the bending tool 4. However, other possibilities would also be conceivable in order to avoid a jamming connection. * * * * • «c · * · * ·» • · · »· · · · · · · · i · · · * a * * · ' * * * · »· F * ·« · • · f «< -8-fertilize between the manipulation device 33 described in more detail below and the bending tool 4 and the bending tool 4 and / or bending die 6 forming the bending tool 4.
    As can now be seen better from a synopsis of FIGS. 2 and 3, the tool storage 30 is disposed on a side facing away from an operating side of the press bars 13, 16. The operator side is understood here to be that region on the bending press 3 from which the supply and handling of the metal sheets to be formed takes place toward the finished workpiece 2. The machine frame 7, in particular its side cheeks 9, 10 extending starting from the operating side to a rear side of the machine frame 7, which is subsequently referred to as depth or depth extension of the bending press 3, in particular of the machine frame 7. The lateral cheeks 9, 10 of the machine frame 7, which are spaced apart here in the transverse direction of the bending press 3, form a width of the bending press 3 or of the machine frame 7, the press beams 13, 16 with the parts arranged thereon or in the direction of the width of the machine frame 7 . trained tool holders 19, 20 extend.
    Between the side cheeks 9, 10 and on the side facing away from the operating side of the press beams 13,16 at least one but preferably more Hinteranschlageinheiten 31 is further provided or arranged. Such Hinteranschlageinheiten 31 are well known and it is, in order not to unnecessarily extend the description, here omitted a more detailed description. The back stop unit 31 comprises at least one stop element 32 which serves to position the sheet to be processed on the side of the press beams 13, 16 facing away from the operating side. In addition, the stop element 32 is relative to the machine frame 7 adjustable. This serves to ensure that the sheet to be deformed, for example, on the bending die 6 can be slid so far in the direction of the depth of the machine frame 7 until the displacement is limited by the first prepositioned stop member 32. In this state, most of an end edge of the sheet to be bent comes to a mostly designed as a stop finger stop element 32 to the plant. Depending on the workpiece to be machined, the stop element 32 is displaceable by means of the entire back stop unit 31 and positioned at the predefined locations. In a multiple arrangement of stop elements 32 each at a plurality, preferably independently adjustable Hinteranschlageinheiten 31, a high variety of stop positions can be achieved. • • * «• · '· · kt • 0 •« • • • • • • • • • • * * • • • • • • • »1 > · «·« I »· ·» »* -9-
    Furthermore, the manufacturing plant 1 can also in addition to the previously described manipulator for manipulating the sheet or the workpieces to be produced 2 also include its own and independently acting manipulation device 33, which specifically for the movement of the bending tool 4 and the bending tool 4 forming punch 5 and / or bending die 6 between the tool storage 30 and the tool holders 19, 20 is used. In this embodiment shown here, the manipulation device 33 is arranged on the back stop unit 31.
    In the position of the two Hinteranschlageinheiten 31 shown in FIG. 2 each stop member 32 is shown in an orientation which is directed to the side facing away from the operator side of the press beams 13, 16 and thus in the direction of the back of the machine frame 7. The manipulating device 33 in each of the backstop units 31 is shown in this illustration in a position facing the press bar 13, 16.
    In order to combine the stop element 32 and the manipulation device 33, it is further provided here that these are arranged or formed on a common carrier 34. The carrier 34 in turn is rotatably mounted about a pivot axis 35 on a base frame 36 and preferably has a narrow, elongated design. The fact that the carrier 34 carries or forms both the stop element 32 and the manipulation device 33, these are arranged or formed in an opposite and in opposite directions. It could also be spoken of a diametrical arrangement of the stop element 32 with respect to the manipulation device 33.
    As can now be better seen in FIG. 3, an adjusting device 37 is indicated in the base frame 36, with which it is possible to connect the carrier 34 and the stop element 32 and the manipulation device 33 from a first position to a second position to pivot. The first position considered here is that position in which the stop element 32 is facing the tool holder 19, 20 held bending tool 4. In this position, a positioned stops the sheet to be deformed toward the finished workpiece 2 on the one or more stop elements 32 is possible. In the second different position to pivot around the common pivot axis 35, for example, by an amount of 180 °, in which then the manipulation device 33 is the tool holders 19, 20 held bending tool 4 is turned. By turning or ΜΛΛ * A / ήίΛΛΛ
    The arrangement of the support 34 about the pivot axis 35 and the opposite and mutually averted orientation of the stop element 32 and the manipulation device 33 may once the stop element 32 and at another time the manipulation device 33 the press bar 13, 16 and thus the bending tool 4 are facing.
    The pivot axis 35 shown here for pivoting the carrier 34 between its two positions here has a vertical or vertical orientation. Thus, the pivoting movement can be performed in a horizontal plane. Regardless, it would also be possible to choose a different orientation than the described vertical alignment. This could also be, for example, a horizontal orientation or arrangement of the pivot axis 35.
    The component forming the pivot axis 35 is preferably designed as a tubular component or as a hollow shaft, which is connected to the carrier 34 at its first end region 38. The design as a tubular component or hollow shaft can bring the advantage that lines for the power supply or actuating means or the like can be laid in the free interior of the hollow shaft. To achieve a stable mounting of the tubular component or the hollow shaft to form the pivot axis 35, this is mounted with its second end portion 39 in or on the base frame 36 of the backgauge and the Hinteranschlageinheit 31 adjustable. As shown in simplified form with arrows, the tubular component or the hollow shaft about the pivot axis 35 rotationally and in the axial direction of the pivot axis 35 can be translationally adjusted. This can be done with unspecified drive members of the actuator 37.
    In order to carry out the manipulation of the bending tool 4, in particular its bending punch 5 and / or bending die 6, the manipulation device 33 may comprise at least one gripping member 40 which, depending on the design and arrangement with the bending tool 4, in particular the bending punch 5 and / or bending die. 6 can be brought into coupling connection. In this embodiment shown here, the manipulation device 33 comprises two cooperating gripping members 40, which are mutually adjustable for the coupling connection with the bending tool 4 in the opposite direction of movement. By this opposing displacement of each other and the associated enlargement of the outer dimension, a clamping operation by the cooperating gripping members 40 on the bending tool 4, in particular on the - 11 -
    Bending punch 5 and / or bending die 6, can be achieved. One of many possibilities is to form the recesses 28, 29 described above in such a way that the two gripping members 40 can be inserted into one of the recesses 28, 29 or an opening in their release position and, after their opposite displacement, on the inside to the recess 28, 29 be created. This can be done a clamping of a bending tool 4 on the manipulation device 33 and further on the carrier 34.
    Furthermore, the manipulation device 33 may also include an actuating element 41 which, for example, for the uncoupling of the bending tool 4 of the tool holder 19, 20 can be brought into operative connection with an unspecified well-known release mechanism. Thus, it is possible, for example, a bending tool 4 arranged on one of the tool holders 19, 20, for example a bending punch 5 and / or the bending die 6, to be released from the tool holder 19, 20 by actuation of the unlocking mechanism by the actuating element 41 from its clamping holder ., While at the same time while still or the gripping members 40 are inserted into the recess 28, 29 and coupled there by clamping. Was released with the actuator 41, the release and a sufficient clamping action or holding force of the or the gripping members 40 is achieved on the bending tool 4, with a corresponding adjustment of the actuator 37, the carrier 34 and the associated manipulation device 33 relative to the tool holder 19, 20th adjusted and thus the bending tool 4 are removed. This is preferably done in a vertical or vertical direction of movement in order to remove the bending punch 5 and / or the bending die 6. This is dependent on the clamping arrangement of the bending punch 5 and the bending die 6 on the tool holders 19, 20. Subsequently, a displacement of the base frame 36, for example, on a guide carriage 42, on the side facing away from the operating side of the press bar 13, 16. This adjustment thus takes place in the direction of the depth of the machine frame 7. Immediately after the release or removal of the bending tool. 4 Of the tool holders 19, 20 can be pivoted about the pivot axis 35 by means of the adjusting device 37 of the carrier 34 so that the manipulation device 33 is no longer the operating side and thus the tool holders 19, 20, but the tool memory 30 is turned.
    Then, the adjustment of the base frame 36 and associated therewith the manipulation device 33 and the bending tool 4 held thereto until the insertion of the bending tool 4, such as the punch 5 and Biegegesenks 6 takes place at a predetermined tool storage location of the tool memory 30. If this predefined position is reached, the bending tool 4 is inserted into a receptacle or holder of the tool storage 30, which may correspond, for example, to its shape and design of the tool receptacle 19, 20. If the bending tool 4 is held clamped in particular at the intended tool storage location, the one or more gripping members 40 and the coupling connection connected thereto can be released. Subsequently, the bending tool 4 subsequently required can be controlled in its position with the manipulation device 33 from the tool storage 30 from a further tool storage space and the previously described opposite conversion process of the bending tool 4 from the tool storage 30 to one of the tool holders 19, 20 take place. After receiving and holding the bending tool 4 from the tool storage 30, the carrier 34 in turn pivoted about the pivot axis 35 so far that the manipulation device 33 is the press bar 13,16 facing and then the bending tool 4 at the designated position in the tool holder 19, 20 used and held there by clamping.
    The base frame 36 of the back stop unit 31 is guided relative to the guide carriage 42 in the direction of the depth of the machine frame 7 adjustable. The guide carriage 42 in turn can be adjusted in the transverse direction with respect to the machine frame 7, ie in the direction of the longitudinal extent of the tool holder 19, 20. Through this multiple adjustment any position can be reached and controlled within the possible travel paths.
    As can now be better seen in FIG. 2, the tool store 30 is arranged on the side of the press beams 13, 16 facing away from the operating side on a rear side of the machine frame 7. Due to the depth of the machine frame 7 with its side cheeks 9, 10 sufficient clearance or depth within the machine frame 7, starting from the tool holders 19, 20 in the direction of the depth of the machine frame 7 is achieved. The arrangement of the tool storage 30 on the back of the machine frame 7 no additional space for the arrangement of the tool storage 30 is necessary. Preferably, the tool storage 30 comprises a plurality of tool storage locations for a wide variety of bending tools 4, where the tool storage locations are preferably arranged one above the other in a vertical orientation and at a distance from one another.
    In order to be able to use the width of the machine frame 7 for storing or storing a plurality of bending tools 4, it is advantageous if the tool storage 30 comprises a plurality of tool storage places arranged one behind the other or next to one another. In this case, the tool storage places of a row arranged one behind the other or next to each other are preferably arranged in each case in a horizontal orientation relative to one another.
    In order to be able to comply with the position and orientation of the bending punch 5 or of the bending die 6 in the tool store 30 at the tool storage locations provided therefor, the bending dies 5 can be in a suspended position and the bending dies 6 in a standing position at the intended location Store stored tool storage. In order to achieve this, the tool store 30 may comprise a plurality of rod-shaped storage elements 43 arranged one above the other as well as spaced apart in the vertical direction. The rod-shaped memory elements 43 may be combined with other components to form a lattice-shaped support frame 44, which is arranged or supported as a related assembly, for example, on the side walls 9, 10, in particular their inner surfaces. For this purpose, it is advantageous if the tool storage 30, in particular its support frame 44, extends in the transverse direction of the machine frame 7 between the side walls 9, 10. It is particularly advantageous if the tool store 30 is mounted on the machine frame 7 in an adjustable manner, in particular on its side cheeks 9, 10. Preferably, the adjustment takes place in the vertical or vertical direction, so as to optionally also allow access into the interior of the machine frame 7, starting from the back to the tool holders 19, 20 and the back stop unit 31. But this also provides access to the or the Hinteranschlageinheiten 31. This can be beneficial for maintenance and inspection purposes.
    It has proven to be particularly advantageous if the production plant 1 comprises at least two independently displaceable or adjustable backstop units 31, each with its own carrier 34 with the stop element 32 and the manipulation device 33. Thus, an exchange of a bending tool 4 comprising a bending punch 5 and a bending die 6 can take place rapidly and almost simultaneously, as with a manipulation device 33 of the first back-stop unit 31 of the bending punch 5 and 5 with the other manipulation device 33 of the further backstop unit 31, the bending die 6 can be removed from the tool receivers 19, 20 and deposited at the memory locations provided in the tool store 30. When removing and inserting a new bending tool 4 from the tool storage 30 to the tool holders 19, 20 can then be proceeded analogously in reverse order. It should also be mentioned that the carrier 34 can also be formed, for example, by extension or enlargement of the stop element 32 and extends as far as the support of the manipulation device 33. Thus, the carrier 34 can also simultaneously form the stop element 32. Furthermore, the end of the stop element 32 in the radial direction with respect to the pivot axis 35 protrude further than the manipulation device 33 on the other side. Thus, the mass or the weight of the bending tool 4 in the clamped holder on the manipulation device 33 with the introduction of a lower moment on the base frame 36 and the pivot axis 35 forming tubular component can be removed.
    For the sake of the order, it should finally be pointed out that for a better understanding of the structure of the production plant 1, in particular its back-stop unit 31, these or their components have been shown partially unevenly and / or enlarged and / or reduced.
    The task underlying the independent inventive solutions can be taken from the description. All statements on ranges of values in the description of the present invention should be understood to include any and all sub-ranges thereof, e.g. the indication 1 to 10 should be understood to include all sub-ranges, starting from the lower limit 1 and the upper limit 10, i. all subregions begin with a lower limit of 1 or greater and end at an upper limit of 10 or less, e.g. 1 to 1.7, or 3.2 to 8.1 or 5.5 to 10.
    The embodiments show possible embodiments of the manufacturing plant 1, in particular its Hinteranschlageinheit 31, which should be noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual embodiments are mutually possible and this variation possibility due to Teaching ♦ * • · • · · ♦ «
    to technical action by objective invention in the skill of those working in this technical field expert. So are all conceivable embodiments, which are possible by combinations of individual details of the illustrated and described embodiment variant, includes the scope of protection. Furthermore, individual features or combinations of features from the different exemplary embodiments shown and described can also represent independent, inventive or inventive solutions.
    Above all, the individual in Figs. 1, 2; 3 embodiments form the subject of independent solutions according to the invention. The relevant objects and solutions according to the invention can be found in the detailed descriptions of these figures. (ΰ ---
    Reference to production line 36 Workpiece 37 Bending press 38 Bending tool 39 Bending punch 40 Bending die 41 Machine frame 42 Base plate 43 Sidewall 44 Sidewall Actuator Guide carriage Storage element Supporting frame t e 11 u n g
    Basic rack actuating device first end region second end region gripping member
    Cross-section Fronstirnfläche Pressen bar Front end face Linear guide
    press beams
    face
    face
    tool holder
    tool holder
    drive arrangement
    drive means
    energy grid
    control device
    input terminal
    spindle drive
    actuating means
    recess
    recess
    tool storage
    Back gauge unit
    Anschlagefement
    manipulation device
    carrier
    swivel axis
    权利要求:
    Claims (14)
    [1]
    - 1 - • * • · · * · ·

    1. Production plant (1), in particular for the free-form bending of workpieces to be produced from sheet metal (2), comprising a bending press (3), in particular a press brake, with a machine frame (7) and press beams (13, 16) and on the press beams ( 13, 16), a bending tool (4) with at least one bending punch (5) and at least one bending die (6), a tool store (30) for at least one bending tool (4) a side facing away from an operating side of the press beams (13, 16) is arranged, at least one Hinteranschlageinheit (31) with a stop element (32) for positioning the sheet to be processed on the side facing away from the operating side of the press beams (13, 16) the stop element (32) is adjustable relative to the machine frame (7), and a manipulation device (33) for moving the bending tool (4) between the tool spoke r (30) and the tool receptacles (19, 20), wherein the manipulation device (33) is arranged on the back stop unit (31), characterized in that the stop element (32) and the manipulation device (33) are attached to a common carrier (34). The carrier (34) of the back stop unit (31) is rotatably mounted about a pivot axis (35), wherein by means of an adjusting device (37) of the carrier (34) from a first position, at in that the stopper element (32) faces the bending tool (4) held in the tool holders (19, 20), is pivotable into a second position, in which the manipulation device (33) holds the bending tool (4) held in the tool holders (19, 20) ) is facing.
    [2]
    2. Production plant (1) according to claim 1, characterized in that the pivot axis (35) of the carrier (34) has a vertical orientation.
    [3]
    3. Production plant (1) according to claim 1 or 2, characterized in that the pivot axis (35) is formed as a tubular member which is connected at its first end region (38) to the carrier (34). 4 / ΛΑΠΛΛ -2- »» »» *** *** *** *** · · · · · · · · · · · · · · · · · · # # # # # # # # # #. ·· ♦ * · ♦ · * · · # φ · * ·· ·
    [4]
    4. Production plant (1) according to claim 3, characterized in that the pivot axis (35) forming tubular member with its second end portion (39) is adjustably mounted in a base frame (36) of the Hinteranschlageinheit (31).
    [5]
    5. Production plant (1) according to one of the preceding claims, characterized in that the manipulation device (33) comprises at least one gripping member (40) which can be brought into coupling connection with the bending tool (4) to the manipulated bending tool (4) during the storage between the tool storage (30) and the tool holders (19, 20) on the carrier (34) to support.
    [6]
    6. Production plant (1) according to claim 5, characterized in that the manipulation device (33) comprises two cooperating gripping members (40), which are mutually adjustable for the coupling connection with the bending tool (4) in the opposite direction of movement.
    [7]
    7. Production plant (1) according to one of the preceding claims, characterized in that the manipulation device (33) further comprises an actuating element (41), which for the uncoupling of the bending tool (4) of the tool holder (19, 20) with an unlocking in Active compound can be brought.
    [8]
    8. Production plant (1) according to one of the preceding claims, characterized in that the tool storage (30) is disposed on the side facing away from the operating side of the press beams (13,16) on a rear side of the machine frame (7).
    [9]
    9 manufacturing plant (1) according to one of the preceding claims, characterized in that the tool storage (30) comprises a plurality of tool storage locations and these are arranged one above the other in a vertical orientation and at a distance from each other. -3- * * ♦ «IM« ft ft * * «•• ft * · * · ft · · · · · · · ft ft ft ft ft ft
    [10]
    10. Production plant (1) according to one of the preceding claims, characterized in that the tool store (30) further comprises a plurality of tool storage locations arranged one behind the other in a row.
    [11]
    11. Production plant (1) according to one of the preceding claims, characterized in that the tool storage (30) comprises a plurality of superimposed and spaced apart in the vertical direction from each other, in particular rod-shaped formed memory elements (43).
    [12]
    12. Production plant (1) according to claim 11, characterized in that the tool storage (30) with the storage elements (43) forms a lattice-shaped support member (44).
    [13]
    13. Production plant (1) according to one of the preceding claims, characterized in that extending the tool storage (30) in the transverse direction of the machine frame (7) between its side wall parts (9,10).
    [14]
    14. Production plant (1) according to one of the preceding claims, characterized in that the tool storage (30) on the machine frame (7), in particular on its side wall parts (9, 10), is guided adjustably guided. TRUMPF Maschinen Austria GmbH & Co. KG. through i

    Lawyers Burger & Partner Lawyer GmbH
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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JP2003136144A|2001-11-07|2003-05-14|Amada Co Ltd|Bending apparatus|
    US20050097940A1|2002-05-13|2005-05-12|Trumpf Maschinen Austria Gmbh & Co. Kg.|Production device, especially a bending press, and method for operating said production device|
    EP1702727A2|2002-05-13|2006-09-20|Trumpf Maschinen Austria GmbH & CO. KG.|Production assembly with a bending press, a manipulation device and a calibration device|US20150258594A1|2012-10-19|2015-09-17|Amada Company, Limited|Sheet material bending system|CH668035A5|1986-09-19|1988-11-30|Beyeler Machines Sa|Folding press with die or matrix replacement system - has arms on rear mobile supports having pins which engage with holes in dies and matrices|
    WO1992016318A1|1991-03-22|1992-10-01|Amada Company, Limited|System for working on plate material|AT514077B1|2013-06-20|2014-10-15|Trumpf Maschinen Austria Gmbh|Backgauge device for a bending machine|
    AT514930B1|2013-12-04|2015-05-15|Trumpf Maschinen Austria Gmbh|Backgauge unit for bending machine|
    AT516624B1|2015-05-12|2016-07-15|Felder Kg|Tool magazine and arrangement with such|
    AT517706B1|2015-10-20|2017-04-15|Trumpf Maschinen Austria Gmbh & Co Kg|bending machine|
    AT517712B1|2015-11-04|2017-04-15|Trumpf Maschinen Austria Gmbh & Co Kg|Gripper system for a bending press|
    AT518112B9|2015-12-18|2017-12-15|Trumpf Maschinen Austria Gmbh & Co Kg|Production plant with a tool manipulation unit|
    AT518255B1|2016-02-17|2017-09-15|Trumpf Maschinen Austria Gmbh & Co Kg|Tool change device for a press brake and method for performing a tool change|
    AT518520B1|2016-05-25|2017-11-15|Trumpf Maschinen Austria Gmbh & Co Kg|Tool storage system, manufacturing plant and method of manipulation with such a tool storage system|
    AT519231B1|2016-12-21|2018-05-15|Trumpf Maschinen Austria Gmbh & Co Kg|Tool magazine for a bending machine|
    IT201700007989A1|2017-01-25|2018-07-25|Fastachange S R L|Tool change system in press brakes|
    AT519644B1|2017-07-05|2018-09-15|Trumpf Maschinen Austria Gmbh & Co Kg|Backgauge unit and thus equipped production line|
    JP6619843B2|2018-05-25|2019-12-11|株式会社アマダホールディングス|Plate bending system|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    AT6582011A|AT511078B1|2011-05-10|2011-05-10|MANUFACTURING SYSTEM WITH A TOOL CHANGE SYSTEM|AT6582011A| AT511078B1|2011-05-10|2011-05-10|MANUFACTURING SYSTEM WITH A TOOL CHANGE SYSTEM|
    EP12730360.0A| EP2707160B1|2011-05-10|2012-05-09|Manufacturing plant having a tool-changing system|
    PCT/AT2012/050064| WO2012151601A1|2011-05-10|2012-05-09|Manufacturing plant having a tool-changing system|
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