• 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:

    公开号:AT509980A4
    申请号:T20902010
    申请日:2010-12-20
    公开日:2012-01-15
    发明作者:
    申请人:Trumpf Maschinen Austria Gmbh;
    IPC主号:
    专利说明:

    " · - 1 -
    The invention relates to a production plant, in particular for the free-form bending of workpieces to be produced from sheet metal, as described in claim 1. r
    From NL 1 029 416 a bending press for the bending of workpieces to be produced from sheet metal has become known, in which a stationary and a movable press beam are arranged on a machine frame. On the press beam tool holders are provided to receive and hold therein to form a bending tool, bending punch and Biegegesenke. On the side next to the machine frame, a tool storage in the form of a drawer is arranged, in which bending stamps are stored for the movable press beam. Within the tool memory arranged in succession shots for the different bending punch are provided. The load-like extract has a guide in order to be able to perform a displacement movement in the vertical direction with respect to the longitudinal extension of the press beams in the horizontal direction. To be able to change the tools of the bending tool in the area of the movable press bar, the bending punches held in the tool holder in the press bar are first to be transferred into the tool store in a corresponding position. Subsequently, new bending punch can be removed from the tool storage, introduced into the tool holder and clamped there. The disadvantage here is that a large amount of time is required for the tool change and connected, a long machine downtime is connected.
    The present invention has for its object to increase the degree of machine utilization and to minimize the setup effort.
    This object of the invention is solved by the features of claim 1. The advantage resulting from the features of claim 1 lies in the fact that it is thus possible to form the tool combination for forming the bending tool from the bending dies and bending dies already in the tool store at the specially provided adapters , In this case, the individual bending dies and bending dies can be inserted in a predefined position into or into the adapters provided for this purpose and can then be kept positioned there. If a tool change is now necessary, only the bending tool that is no longer needed needs to be removed from the area of the bending press. This is done on guided tool holders towards a linear rail of the tool storage with a free storage position. Simultaneously with this sliding movement or else at-closing, it is possible to move the already prepared further bending tool with its adapters from the storage position in the tool storage towards the working position on the respective tool holder. If this sliding movement is carried out until the final working position has been reached, a holding clamp of the adapter to the respective tool holders is usually carried out. Thus, at least one further bending tool can already be pre-equipped in the tool store or stores during the bending process with the bending tool located in the bending press, without the ongoing production process being interrupted or impaired.
    Also advantageous is a further embodiment according to claim 2, as can be done with respect to the tool holder so an exact alignment of the linear rail. As a result, a unique transfer position is defined, in which the adapter or the adapter can be moved from the linear rail of the tool storage towards the tool holder and from this in turn to the linear rail.
    Also advantageous is an embodiment according to claim 3, as well as for the machine frame adjustable with respect to the press frame also a predefined transfer position is created in which a rapid tool change between the tool storage and the tool holder can be done within the bending press.
    The embodiment according to claim 4, it is possible to achieve an even higher degree of flexibility. In addition, a higher number of memory positions can be created in order to additionally shorten the set-up time and the subsequent tool change time.
    However, an embodiment according to claim 5 is also advantageous since an additional free space for manipulation by the manipulator can be created on the side of the machine frame as needed. This means that even larger workpieces can be machined and N2010 / 22700 -3- I «-3- I« * * * · * ·· it is nevertheless possible to carry out set-up work in the tool storage area.
    According to another embodiment variant according to claim 6, a stationary fixing of the adapter and thus the bending punch or bending dies is created relative to the bending press.
    Also advantageous is a development according to claim 7, as well as the adapter arranged there can be kept stationarily positioned in the area of the tool storage. During the placement of the adapter with the punch punches or bending dies can be prevented as an unwanted, relative displacement of the adapter to the linear rail. This makes it possible to perform the loading of the adapter also automated. This can be done for example by a manipulator or the like.
    In the embodiment according to claim 8, it is advantageous that the one or more bending dies or the bending die (s) can also be held in position relative to the respective adapter. This makes it possible to spend the pre-assembled adapter in the respective working position without high additional assembly work, in which case only the adapter must be clamped in the working position, since the bending punch or bending dies are already held prepositioned.
    Through the development according to claim 9 ensures that it is possible to perform an automatic adjustment of the adapter relative to the linear rail can. This makes it possible to perform the tool change of the bending tool even faster and safer. Furthermore, the operator-friendliness is also increased by the linear drive, since the respective adjustment movement can be easily performed without human effort.
    Finally, an automatic adjustment of the adapter relative to the tool holder can be performed by the embodiment according to claim 10 in the field of tool holder. This makes it possible to carry out a tool change even faster and, above all, more economically. Above all, a combination of Lrnearantriebe is particularly economical both in the linear rail and in the tool holder. N2010 / 22700
    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:
    1 shows a production system according to the invention with tool storage, in view and simplified representation.
    FIG. 2 shows a partial area of the production plant in the area of the tool storage with additional linear drive, in a view and simplified representation; FIG.
    Fig. 3 shows another portion of the manufacturing plant in the bending press with additional linear drive, in view and simplified representation.
    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 the same component names, the disclosures contained throughout the description can be mutatis mutandis to identical parts with the same reference numerals or the same component designations transferred. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and are to be transferred to the new situation mutatis mutandis when a change in position. Furthermore, individual features or combinations of features from the different exemplary embodiments shown and described can also represent independent, inventive or inventive solutions. 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.
    1 shows a production plant 1 for the 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 bending tools 4 which are adjustable relative to one another, such as bending punch 5 and bending die 6, N2010 / 22700 -5
    A machine stem 7 of the bending press 3 consists for example of a bottom plate 8 on the vertically upstanding, spaced from each other and parallel to each other aligned 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 can be made approximately C-shaped to form a free space for forming the workpiece 2, wherein on front end faces 12 of bottom flanges of the side cheeks 9, 10 a fixed, on the bottom plate 8 upstanding press bar 13, in particular a table bar , is attached. At a distance from the bottom plate 8 legs of the side cheeks 9,10 more front end faces 14 are formed, wherein in linear guides 15 a to the table beam forming press bar 13 relatively adjustable further press bar 16, in particular a pressure bar, is guided out. On opposite, mutually parallel end surfaces 17, 18 of the two press bars 13, 16 tool holders 19, 20 are arranged.
    The bending press 3 shown has, as drive arrangement 21 for the adjustable press beam 16, namely the pressure bar, a drive means 22 which is usually operated by means of electrical energy and which is line-connected to a control device 24 fed from a power grid 23. For example, the operation of the bending press 3 can be controlled via a line connected to the control device 24, but not shown in detail input terminal.
    The drive means 22 may be, for example, an electromotive spindle drive, as is generally known. About adjusting means a reversible adjusting movement of the upper beam bar 16 formed by the pressure bar is performed relative to the generally stationary lower press bar 13, said actuating means are drivingly connected to the drive means 22.
    The one or more bending dies 5 and / or the bending die or the Biegegesenke 6 of the bending tool 4 are connected with the interposition of additional adapters 25, 26 with the respective tool holders 19, 20 and held on this. These adapters 25, 26 may also be referred to as so-called tool clamps, in which the one or more bending punches 5 and / or the bending die or corners 6 can be introduced and subsequently clamped. This serves to prepare individual different tool sets for forming different bending tools 4 to N2010 / 22700 and then as needed and sequence of the predetermined bending process for the preparation of the workpiece 2 at the appropriate location in the bending press 3 at the designated position to the trained there To hold tool holders 19, 20 or firmly clamp.
    The bending tool 4, which is shown in its working position in the bending press 3, here comprises a plurality of bending punch 5 and a plurality of cooperating bending dies 6. Here, the individual bending punch 5 are kept positioned in the own adapter 26. The same also applies to the bending dies 6, which is held here via the further adapter 25 and this over the tool holder 19 to the here fixed press beam 13.
    Furthermore, it is shown here that the production plant 1 comprises at least one tool store 27, preferably also a further tool store 28. As a tool storage 27, 28 is understood here that the bending press 3 associated with or adjacent to this and is arranged to receive at least one bending tool 4 outside the press area of the bending press 3. It is thus possible to prepare in one of the tool stores 27, 28 a bending tool 4 for a bending operation to be carried out subsequently, wherein the individual bending punches 5 or bending dies 6 are introduced into the adapters 25, 26 provided there and at the corresponding orientation, if necessary after adjustment the same, are kept positioned. This can be done by a clamping operation in different ways and with different means. The further tool storage 28 on the right side here of the bending press 3 can be used to record this at a tool change of the bending tool 4 of this located on the press bars 13,16 working position, in which case after release of the working position in the first and left shown here tool memory 27th Pre-equipped bending tool 4 is introduced in a corresponding transfer position in the working position within the bending press 3.
    Each of the tool stores 27, 28 illustrated here comprises a guide arrangement 29, 30. The guide arrangements 29, 30 are usually formed by linear rails 31, 32 which serve for the adjustable guidance of the adapters 25, 26 and thus the bending dies 5 or bending die 6 supported thereon ,
    If one now considers the guide arrangements 29 assigned to the fixed press beam 13, these are aligned with their linear rails 31 in alignment with the tool holder 19 arranged or formed on the press beam 13. The alignment is understood to mean that in the longitudinal extension seen the tool holder 19, the linear rails 31 are also located in the direction of the same longitudinal extent or are aligned thereto. The two linear rails 31 are arranged directly adjacent and laterally positioned next to the tool holder 19.
    This linear and aligned alignment of the linear rail 31 and the linear rails 31 with respect to the tool holder 19, it is possible to spend the adapter 25 as part of the bending tool 4 from the storage position shown here on the left in the present in the bending press 3 working position. If a part of the bending tool 4 is already arranged with another tool set at the working position, this tool store 28, which has previously been shown on the right of the bending press 3, must be moved. After the tool change has taken place in the area of the tool store 28 shown on the right, a renewed change of the bending tool 4 can take place by the bending tool 4 located in the working position being displaced into the area of the tool store 27 shown on the left and the one located in the tool store 28 shown on the right adapted bending tool 4 is moved from its storage position to the working position.
    Since the press beam 16 shown here above is adjustable relative to the machine frame 7 in the vertical direction, the other linear rail 32 and the other linear rails 32 are arranged such that at a transfer position arranged on the adjustable press beam 16 or trained tool holder 20 in alignment Alignment is arranged with respect to the machine frame 7 of the bending press 3 held linear rail 32. This transfer position can for example be that position in which the press bar 16 is in its uppermost position relative to the machine frame 7. It would also be possible to define any intermediate position in which the linear rails 32 are aligned with the arranged on the press bar 16 tool holder 20 in alignment, so a guided adjustment of the adapter 26 between the linear rail 32 and the tool holder 20 and the tool holder 20 to perform towards the linear rail 32 can. The same adjustment also performs the adapter 25 in the range of the press beam 13 shown below. N2010 / 22700 -8-
    In order to achieve a positionally accurate displacement movement between the linear rails 31 and 32 and the tool holders 19, 20, the linear rails 31, 32 of the tool storage 27, 28 preferably fixed to the machine frame 7 of the bending press 3 and / or a non-illustrated separately from the machine frame. 7 be arranged connected support frame.
    Regardless, it would also be possible that the tool storage 27, 28 with its linear rail 31, 32 from the alignment of the linear rail 31, 32 with respect to the longitudinal extension of the tool holder 19, 20 is mounted adjustably in an angular orientation. This can e.g. take place by a pivoting about a vertically extending pivot axis 33, as this was indicated in Fig. 1 only for the lower part of the left of the machine frame 7 tool storage 27. But it would also be any other adjustment, such as a sliding movement, a folding movement or the like. Conceivable. Thus, the free space can be increased laterally of the machine frame 7, so as to increase the handling space for the manipulator. In this case, all of the illustrated linear rails 31, 32 may be movably connected to the machine frame 7. But it could also be a separate from Maschinenge-steli 7 storage or mounting of the linear rails 31, 32 done on a dedicated, but not shown support frame. In any case, for the rectilinear transfer movement of the individual adapters 25, 26 between the linear rails 31, 32 and the tool holders 19, 20 to adjust the alignment alignment.
    As the simplest embodiment variant, it would be possible to assign the bending press 3 only one of the tool stores 27, 28 or to support it. However, a linear rail 31, 32 is preferably provided on both sides of the press beam 13, 16.
    For holding and fixing the position of the adapter or adapters 25, 26 on the tool holder 19, 20, the tool holder 19, 20 comprises at least a first clamping means, with which the adapter 25, 26 fixed by the clamping action of the first clamping means in its working position relative to the respective tool holder 19, 20 is held. For reasons of clarity, the illustration of these clamping means has been dispensed with, whereby any clamping means known from the prior art can be used here,
    To the one or more adapters 25, 26 also in the region of the linear rail 31, 32 or the linear rails 31, 32 in their storage position fixed relative to the linear N2010 / 22700 -9- * · «« · «*« · · «« * * ** «« · «v
    In order to be able to hold the rail 31, 32, second clamping means may be provided here. These are also not shown in detail for reasons of clarity. Furthermore, however, it is also possible to provide third clamping means between the adapters 25, 26 and the bending dies 5 or bending dies to be held therein. These third clamping means hold the one or more bending punch 5 or the bending die or the 6 each stationary relative to the designated adapter 25, 26 fixed.
    FIG. 2 shows a possible and, if appropriate, separate embodiment for a part of the production system 1, wherein the same reference numerals or component designations are used for the same parts as in FIG. 1. To avoid unnecessary repetition, refer to the detailed description in fig. 1 or referenced.
    It should be noted that this can also be a completely independent solution. Thus, the object of the invention can be seen in the fact that the machine utilization rate increases and thus further downtime should be minimized.
    In order to simplify the displacement or adjustment movement of the adapter 25, 26 with respect to the linear rail 31, 32, this can be done for example by a linear drive. The linear drive can be formed for example by a linear motor, a toothed belt drive, a spindle drive, or the like, which causes or performs the relative displacement of the adapter 25, 26 relative to the linear rail 31, 32.
    Thus, Fig. 2 shows a portion of the tool memory 27, in which on the only partially shown linear rail 32, a part of the bending tool 4, namely the adapter 26, with the Erten ten Bending punches 5 can be seen. In the present embodiment, the linear drive is realized by a linear motor shown stylized, wherein the stator of the linear motor is formed or arranged on or in the linear rail 32. The rotor of the linear motor is arranged or formed in or on the adapter 26. In this case, the rotor may be formed for example by a permanent or permanent magnet or else by an electromagnet or the like.
    The presentation of separate supply lines for the energy supply has been omitted for better clarity. N2010 / 22700 - 10
    It should be mentioned that this linear drive shown here in a simplified manner can also be used in the case of the other linear rail 31 or the further tool storage 28.
    Thus, it is now possible to easily and the respective present in one of the tool memory 27, 28 adapters 25, 26 to equip the Biegestempeln 5 and / or Biegegesenken 6 while a jammed holding the individual bending punch 5 and Biegegesenke 6 at the adapters 25, 26 perform. As already described above, in this storage position, the adapters 25, 26 can also be held fixedly clamped to one of the linear rails 31, 32 in order to be able to easily carry out the assembly of the adapters 25, 26. If now another bending tool 4 has been upgraded in the area of the tool storage 27 and / or 28 and this is required for a further bending operation in the area of the bending press 3, first the bending tool 4 located in the bending press 3 is from its working position within the bending press 3 to spend on a free space of the tool memory 27 and / or 28. Subsequently, the linear drive in the region of the tool storage 27, 28 can be actuated to perform the movement of the adapter or 25, 26 from the storage position on the linear rail 31, 32 toward the working position on the tool holder 19, 20.
    FIG. 3 shows a further embodiment of a part of the production system 1 in the region of the lower press beam 13 with the tool holder 19 arranged thereon, again with identical component designations or reference numerals as in the preceding FIGS and 2 are used. In order to avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 and 2 or reference.
    It should be noted that this can also be a completely independent solution. Thus, the object of the invention can be seen in the fact that the machine utilization rate increases and thus further downtime should be minimized.
    As previously explained in detail in FIG. 2, a linear drive for the relative actuation of the adapter 25, 26 is provided on the linear rail 31, 32. In order to achieve a corresponding automated adjustment movement of the adapter 25, 26 relative to this receiving and a guide causing tool holder 19, 20, also here own separate linear drive between the tool holder 19, 20 and the N2010 / 22700 -11 -
    Adapter 25, 26 are provided. This makes it possible, not only, as has already been described in FIG. 2, to relatively displace the adapter 25, 26 relative to the linear rail 31, 32 of the tool storage 27, 28, but also in the area of the tool holder 19, 20 to perform this externally driven adjustment. As already described above, this linear drive can be formed by a linear motor, a toothed belt drive, a spindle drive, with which the relative longitudinal displacement in the direction of the longitudinal extent of the tool holders 19, 20 can be performed.
    With a combination of the two linear drives in the area of the tool storage 27, 28 and the tool holders 19, 20, it is possible to perform a simple and above all automated adjustment of the bending tool 3 located in the bending press 3 towards one of the tool storage 27, 28 or this there to relocate and then or simultaneously located in the storage position, further bending tool 4 to move from its storage position towards the working position within the bending press 3.
    In order to create a sufficient handling space for a manipulator, it is advantageous if there is a minimum distance of at least a few millimeters, such as between the bending tool 4 located in the storage position of that bending tool 4, which is in the working position. 50 mm or more, is formed.
    As already briefly described above, it is necessary in the bending tool 4 with its adapters 25, 26 and arranged in the adapters 25, 26 bending dies 5 and 6, respectively, to allow sufficient clamping or holding relatively between these components. For this purpose, it is provided that the tool holder 19, 20 comprises at least a first clamping means, wherein the adapter 25, 26 by the first clamping means in the working position fixed relative to the tool holder 19, 20 is held. Thus, the bending tool 4 located in the bending press 3 is held stationary, this fixed support can be done by a variety of clamping means.
    In order to hold the adapter 25, 26 fixed to the or linear rails 31, 32, the linear rail 31, 32 may comprise second clamping means in order to achieve this fixed support can. Thus, by the second clamping means, the adapter 25, 26 are held in its storage position relative to the linear rails 31,32. N2010 / 22700 - 12-
    Additionally and independently of this, however, it is also possible to provide third clamping means in the region of the adapter 25, 26 so as to hold the bending die or benders 5 or the bending die 6 relatively stationary with respect to the adapter 25, 26.
    For better clarity, the presentation of the above-described clamping means has been dispensed with, since these are well known from the prior art, these clamping means may be by mechanical clamping means or pressure-medium-actuated clamping means. In the mechanical clamping means, for example, clamping screws, eccentric discs, toggle lever or the like can be used. As a pressure medium-operated tensioner, for example, pneumatically or hydraulically operated clamping devices can be used.
    Furthermore, it would also be possible regardless of the bending press 3 at the there provided tool holders 19, 20 of the press beams 13, 16 on the tool holders 19, 20 a plurality of bending tools 4 next to each other, but with spacing to each other. Thus, it would be possible in combination with the previously described linear drive between the adapter 25, 26 and the tool holder 19, 20 to determine the position of the individual bending tools 4 in dependence on the particular bending process to be performed and the required bending tool 4 to the designated working position means to adjust the linear actuators, there to hold stationary and then perform the bending or Abkantvorgang. For example, if two such bending tools 4 are provided in the region of the bending press 3, a sufficient free space in the longitudinal extension of the tool holder 19, 20 should also be provided between these bending tools 4, in order to create sufficient working space for a manipulator. This could for example also lateral edgings are made possible. However, it would also be possible to provide a plurality of bending tools 4 in the region of the bending press 3, wherein then depending on the desired bending operation of the manipulator spends the workpiece in the respective intended bending tool. For this purpose, a sufficient clearance in the longitudinal direction of the press bar 13, 16 to create.
    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. N 2010/22700 - 13-
    Furthermore, the manufacturing plant 1 may also include a manipulator not shown here, which at least takes a piece of it from a supply stack of sheets to be deformed or abzukantenden and spends in the workspace of the bending press 3. The manipulator in turn includes a gripping pliers, which in turn has gripping fingers. By a corresponding pivoting movement of the two gripping fingers against each other and the associated application of a sufficient clamping force, the sheet or the workpiece to be manufactured 2 is held by the manipulator and moved accordingly and positioned.
    The embodiments show possible embodiments of the manufacturing plant 1, wherein it 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 the teaching of technical action representational invention in the skill of those skilled in this technical field.
    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.
    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 the tool storage 27, 28 and the adapter 25, 26 with the bending dies 5 and bending dies 6, these or their components partly uneven and / or enlarged and / or reduced in size.
    The task underlying the independent inventive solutions can be taken from the description.
    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 are to be found in the detailed descriptions of these figures, N2010 / 22700
    REFERENCE NUMBERS
    manufacturing plant
    workpiece
    bending press
    bending tool
    punch
    bending die
    machine frame
    baseplate
    side cheek
    side cheek
    cross-dressing
    Front face
    press beams
    Front face
    linear guide
    Pressenbaiken
    face
    face
    tool holder
    tool holder
    drive arrangement
    drive means
    energy grid
    control device
    adapter
    adapter
    Tool spe c t tool spoke guide guide assembly guide assembly
    linear rail
    linear rail
    Swivel axis N2010 / 22 700
    权利要求:
    Claims (10)
    [1]
    1 manufacturing plant (1), in particular for the free-form bending of sheet metal to be produced workpieces (2), comprising a bending press (3), in particular press brake, with a machine part (7) and press beams (13, 16) and to the press beams (13,16) formed tool holders (19, 20), a bending tool (4) with at least one bending punch (5) and at least one bending die (6), and a tool storage (27, 28) for at least one bending tool (4), characterized in that the bending tool (4) further comprises at least one adapter (25, 26) and the at least one bending punch (5) or the at least one bending die (6) is in each case positioned in a separate adapter (25, 26) and the tool store (27, 28) at least one guide arrangement (29, 30) with a linear rail (31, 32), wherein the linear rail (31, 32) in alignment with respect to the tool holder (19, 20) immediately next to this posit is arranged ioniert and the adapter (25, 26), starting from a storage position on the linear rail (31, 32) towards a working position on the tool holder (19, 20) on both the linear rail (31, 32) and on the tool take (19, 20) is adjustably guided.
    - 1 -
    [2]
    2. Fertigungsaniage (1) according to claim 1, characterized in that the linear rail (31,32) of the tool storage (27, 28) is fixedly connected to the machine frame (7) of the bending press (3).
    [3]
    3. Production plant (1) according to claim 1 or 2, characterized in that the two tool holders (19, 20) of the press beams (13, 16) each have their own linear rail (31, 32) is assigned, wherein in a transfer position on the adjustable press beam (16) arranged tool holder (20) in alignment with respect to the on the machine part (7) of the bending press (3) held linear rail (32) is arranged. N2010 / 22700
    [4]
    4. Production plant (1) according to one of the preceding claims, characterized in that on both sides of the press bar (13, 16) each have a linear rail (31, 32) is arranged.
    [5]
    5. Production plant (1) according to one of the preceding claims, characterized in that the tool store (27, 28) with its linear rail (31,32) of the aligned alignment of the linear rail (31, 32) with respect to the tool holder (19, 20) is mounted adjustable in an angular orientation.
    [6]
    6. Production plant (1) according to one of the preceding claims, characterized in that the tool holder (19, 20) comprises first clamping means, wherein the adapter (25, 26) fixed by the first clamping means in the working position relative to the tool holder (19, 20) is held.
    [7]
    7. Production plant (1) according to one of the preceding claims, characterized in that the linear rail (19, 20) comprises second clamping means, wherein the adapter (25, 26) fixed by the second clamping means in the storage position relative to the linear rail (19, 20) is held.
    [8]
    8. Production plant (1) according to one of the preceding claims, characterized in that the adapter (25, 26) comprises third clamping means, wherein the bending punch (5) or the bending die (6) fixed by the third clamping means relative to the adapter (25 , 26) is held.
    [9]
    9. Production plant (1) according to one of the preceding claims, characterized in that the adapter (25, 26) with respect to the linear rail (31, 32) via a linear drive, such as a linear motor, a toothed belt drive, a spindle drive, in the longitudinal extension of the linear rail (31 , 32) is displaceable. N2010 / 22700 -3- -3-
    [10]
    10. Production plant (1) according to one of the preceding claims, characterized in that the adapter (25, 26) with respect to the tool holder (19, 20) via a linear drive, such as a linear motor, a toothed belt drive, a spindle drive, in the longitudinal extent of Tool holder (19, 20) is displaceable. TRUMPF Maschinen Austria GmbH & Co. KG. by

    Attorney artner attorney umpH N2Q10 / 22700
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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
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    AT20902010A|AT509980B1|2010-12-20|2010-12-20|MANUFACTURING SYSTEM WITH TOOL MEMORY|AT20902010A| AT509980B1|2010-12-20|2010-12-20|MANUFACTURING SYSTEM WITH TOOL MEMORY|
    PCT/AT2011/050049| WO2012083332A1|2010-12-20|2011-12-20|Bending press having a tool store|
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