• 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 sheet removal station (1) comprising a receiving device (2) for a plurality of sheets (4), a separating device (7), an alignment device (11) and a transfer device (15), wherein the receiving device (2) or the separating device (7) has a vibration element (9) and wherein the transfer device (15) transfers a single sheet (10) in a preferred orientation to a downstream processing machine. The invention further relates to a method of providing a sheet (10) from a sheet stack.
    公开号:AT511305A1
    申请号:T4702011
    申请日:2011-04-04
    公开日:2012-10-15
    发明作者:
    申请人:Trumpf Maschinen Austria Gmbh;
    IPC主号:
    专利说明:

    * ♦ I t »• * *» * · · »* · · · .......... - 1 -
    The invention relates to a sheet receiving station.
    In automated sheet metal processing, sheet metal must be provided from one warehouse or from a previous processing step of the machine tool performing the next processing step. Since the sheets are usually metallic materials, preferably these are iron sheets, the individual sheets are usually provided with a surface protection treatment or, from previous treatment steps, a film of a processing auxiliary liquid can adhere to the sheet surface. In particular, these may be oily substances which, because of their lubricating properties, facilitate the processing or transport or form a surface protection. However, such thin film layers on surfaces have the disadvantage that thereby an adhesive adhesive layer is formed and thus adhere the two sheet metal parts very well together. For further processing, however, it is absolutely necessary for only individual sheets to be fed to the machine tool without requiring a working action of a machine operator.
    Furthermore, since during storage or in production progress it can happen again and again that the orientation of the single sheet within the sheet stack varies slightly, automated further processing is not possible, since these alignment inaccuracies usually have to be corrected by means of a manual alignment step.
    From EP 9 052 131 A, for example, a device is known, is removed in the sheet metal from a stack by means of a Ausschubvorrichtung, wherein by adjusting the Ausschubhöhe each topmost sheet is removed from the stack.
    Also, JP 2001-113331 A discloses a sheet metal transport device with a stop, so that in the case of adhering sheets reliable separation is ensured and only one sheet is transported on. N2010 / 23200 -2-
    The devices known from the prior art are all designed independently, in particular, which are provided for a specific combination of a sheet stack and a machine tool. In particular, however, the known devices require integration into the feed process to the machine tool, in particular, a corresponding free space in the area of the machine tool is provided for this purpose. Also, the known devices are not flexible enough to individually perform both the separation, as well as the orientation of the sheet metal parts without extensive configuration and retooling are required in a material change.
    The object of the invention is thus to provide a sheet removal station which feeds an aligned single sheet from a stack of sheets of a machine tool and thereby overcomes the disadvantages of the prior art.
    The object of the invention is achieved by a sheet removal station which has a receiving device for a plurality of sheets, a separating device, an alignment device and a transfer device, wherein the receiving device or the separating device comprises a vibrating element and wherein the transfer device a single sheet in a preferred orientation to a downstream Processing machine transfers. Since, according to the invention, the receiving device or the separating device has a vibrating element, it is ensured that only one sheet metal part, in particular the sheet metal part lying at the top of the stack, is removed and fed to further processing. A separating device by means of a vibrating element now has the advantage that sheet metal parts adhering by means of vibrations can be separated reliably and in particular without great expenditure of energy. In particular, the danger of damage to the surface is not given in a vibration separation. Furthermore, since vibrations can be restricted very well locally, it is possible to have them act in a very targeted manner, which is advantageous for the overall load of the components of the sheet removal station and also reduces the energy requirement for generating the vibrations.
    According to the invention, it is further provided that the transfer device transfers a single sheet provided by the separating device in a preferred orientation to a downstream processing machine. The embodiment according to the invention now ensures that a single sheet is fed to the machine tool, essentially independently of how the sheet of the sheet removal station, in particular the receiving device was supplied. N2010 / 23200 -3-
    Since in automated production systems in front of a machine tool provision of workpieces to be machined, in particular sheet metal must be provided, can be advantageously ensured by replacing the existing sheet supplying device by the sheet removal station according to the invention that the functionalities providing or storing, separating and aligning a single Be taken over device without additional structural measures would be required or that the production process would have to be changed to include such functionality.
    According to a development, the vibration element is formed by a rotor with eccentric mass, wherein in a preferred embodiment, the rotor is pneumatically driven. However, it is also possible that the rotor is driven hydraulically or electrically. ,
    A possible development is that the separating device is arranged integrated in the receiving device, which in particular a more compact construction of the sheet removal station is achieved. Furthermore, the separating device can be activated independently of the alignment device and the transfer device, whereby an increase in the throughput is achieved.
    A further development also consists in that the receiving device has a bearing surface with application means, wherein the vibration element is movably connected to the bearing surface. As a result, sheet metal parts can be dispensed in the receiving device, in particular be stored on the support surface and then the vibration element can be activated. Due to the vibration, which has, for example, a directed direction of movement, the entire sheet stack can now be set in vibration, so that the sheet metal parts will move against the application means. The application means can now be designed, for example, so that only the uppermost arranged sheet can be removed from the separating device. For example, the application means may be formed longitudinally variable and thus form a kind of stop, so that only the uppermost lying sheet can be removed. With such a design, the length of the application means is adapted to the number of sheets in the receiving device, ie the height of the Blechstapeis, in particular, this can be determined adaptively by means of drive means.
    Another advantage is a further development, according to which the bearing surface of the receiving device is inclined at an angle relative to the horizontal. With this training, N2010 / 23200 -4- the gravity effect is exploited on the sheet metal parts, so that pre-singling or a pre-alignment is given, or that the force required for singling or alignment is reduced because of the inclined orientation of an Exhausted of the sheets is relieved each other or the normal force is reduced to the surfaces of the adjacent sheet metal parts. Another advantage of an inclined support surface is that an adherent sheet, which does not dissolve immediately when you lift but only in the off-hook state of the top sheet, automatically slips against a stop device when hitting the inclined stack of sheets and thus aligns.
    It has proven to be advantageous that, according to a further development, the angle of the inclination of the receiving surface relative to the horizontal is greater than the arctangent of the static friction coefficient μ. This ensures that the static friction between the sheets is overcome and thus they slide independently on each other. This can now be exploited, for example, the sheet metal is removed from the sheet stack or withdrawn, with an optionally adhering sheet will slide off automatically due to the inclined arrangement and under any applied vibrations and thus reliable separation is guaranteed.
    Since due to the surface conditions of the sheets in the receiving device, the coefficient of static friction μ can change, a development is advantageous, according to which the Aufnahmevorrichfung has an adjusting means for changing the angle. Iron sheets are usually coated for rust protection reasons with an oil film, which has a different coefficient of friction than untreated sheet. Therefore, the resulting from the arctan μ angle will be different, from which automatically starts sliding two sheet metal parts. In order to avoid a time-consuming and time-consuming change of the angle between the support surface and the horizontal, in particular as this may require large masses to move, this adjusting means will be formed for example by a driven by an electric motor via a transmission gear push rod. Also, a hydraulically actuated pivoting device may form the actuating means.
    A further development also consists in that the separating device is arranged integrated in the alignment device. This development is advantageous in that in turn a more compact sheet removal station can be formed or that N2010 / 23200 • »- 5-two steps, the singulation and the alignment can be performed together, which in turn can be increased throughput.
    According to a development, the alignment device may have a stop device and a counter-pressure means. The object of the alignment device is a sheet, which is present in a mostly not exactly definable orientation, to transfer in a preferred direction in order to then perform the corresponding processing steps can. By conditioning the sheet on a stop device and activating the counter-pressure means, on the one hand, the alignment of the sheet can be forced and, moreover, this orientation can be reliably maintained until it is transferred to the downstream processing machine. The counter-pressure means can be formed, for example, by spring-biased stop means such as pressure pins or centering templates. It is also a training as pneumatically or hydraulically actuated pressure element possible. In any case, the alignment device is designed in such a way that the counter-pressure means can exert a sufficient force on the sheet metal part to be aligned so as to be able to move the sheet in such a way that the preferred orientation is reliably assumed, even with a greater deviation from the desired orientation.
    To this end, a further development is advantageous, according to which the alignment device has a slotted guide, since thus the sheet automatically assumes the desired preferred orientation by transfer to the predetermined scenes by transfer to the alignment device. The slotted guide can also be designed such that a plurality of driven by drive means or moving stop means successively perform defined movements and thus perform by movement of the sheet metal part over a plurality of alignment sections the desired alignment state. For example, the slide guide may be formed by an at least two-part frame in which a plurality of stop means are provided on a fixed frame part and wherein the second frame part also has a plurality of stop means, wherein the frame part performs a predefined movement by means of a sliding guide to the sheet against the stop means of to press fixed frame part and thus produce the preferred orientation.
    In a development, it is also possible that the alignment device and the separating device are integrated or that the alignment device has components of the separating device. If, for example, according to a development, the alignment device has a push-out slot, after aligning the N2010 / 23200 -6-
    An extension device can be activated in order to be able to feed the aligned sheet metal via the push-out slot of the transfer device. The slot width is now preferably designed such that it is smaller than twice the thickness of the sheet to be separated. The ejection means, for example a pneumatic or hydraulic cylinder or a linear drive, will now, when activated, move the uppermost metal sheet through the push-out slot, so that at the same time or immediately after the alignment of the sheet, the separation can also be performed.
    Another advantage is a further development, according to which the slot width of the Ausschiebeschlit-zes is adjustable to adjust the sheet removal station according to the invention to a plurality of different sheets to be processed can, especially if the change in the slot width is effected by an electrically, hydraulically or pneumatically adjustable drive means , so that a remote-controlled adjustment of the slot width is possible.
    Another advantage is a further development, according to which the transfer device is formed by a robot manipulator with a sheet receiving means, which sheet receiving means may be formed by a gripper attachment, or a vacuum suction, or a magnet holder. A robot manipulator has the particular advantage that it can form a wide variety of trajectories and thus greater freedom is given for the positioning of the sheet removal station in relation to the processing machine. In particular, by means of a robot manipulator both a horizontal offset and a rotation of the transferred piece of sheet metal can be carried out during the transfer from the sheet removal station to the machine tool. Depending on the dimension or of geometric or structural conditions of the sheet metal part to be transferred, the sheet receiving means of the robot manipulator can be formed by a gripping attachment, a vacuum suction device, or a magnet holder. It is also advantageous if the sheet receiving means is coupled to the robot manipulator, so that a quick replacement of the receiving means is possible and thus the plurality of workable sheets can be increased.
    An advantageous development is also obtained in that the vibrating element is arranged in the sheet receiving means. By means of this development, it is possible, for example, for the vibration element to be activated when receiving the sheet-metal part by the transfer device, and thus an optionally adhering, second sheet can be reliably separated from the sheet-metal part to be transferred. For example, the separation can now be carried out in such a way that the sheet metal part can be picked up and slightly lifted by the sheet receiving means, optionally with the formation of a corresponding inclination of the sheet taken in relation to the horizontal, and subsequently by activation of the vibrating element optionally to separate adhering sheet.
    According to a further development, it is provided that the transfer device has a weight detection means, since it is possible to detect the weight of the raised metal sheets if more than one sheet has been removed from the sheet stack. Since the corresponding weight can be derived directly from the geometrical dimensions of the sheet metal part to be transferred and the total weight of the sheets captured by the transfer device is the multiple of the individual weight of a sheet when one or more further sheets adhere to the sheet metal part to be transferred, this can be evaluated the weight of the lifted sheet are determined whether more than one sheet was removed, or with a correspondingly accurate determination of the weight, how much sheets were removed.
    Also, to check whether more than one sheet was removed, a development is advantageous, according to which the transfer device has a thickness measuring device. This thickness measuring device can for example be designed optically as a light barrier, in which the removed sheet is guided past the thickness measuring device in a defined speed and the time duration of the interruption of a light barrier is directly proportional to the thickness of the removed sheet. Also possible is an embodiment in which the thickness measuring device is formed by a probe rod which receives contact with the removed sheet and determined by subtraction between a reference point of the transfer device and the contact point of the thickness measuring the number of removed sheets. Also, an ultrasound-based thickness measurement is possible.
    Since the sheet metal parts to be separated may have a distinctive outline, for example, edges, projections and / or flags, according to a development, the alignment device has a plurality of ejectors, which are arranged in a holding device of the separating device. The holding device is preferably formed by a base and a counter-pressure plate, which two plates are detachably connected to each other by clamping means. In particular, however, it is thus possible to arrange the ejection fingers between them and align accordingly to the outer geometry of the sheet metal part N2010 / 23200 and then clamp firmly. In particular, can be determined by the arrangement of the ejection finger, the desired orientation, so as to align a variety of different shapes of sheet metal parts and can singulate.
    According to a development, it is provided that the support surface is arranged at a distance from a base surface of the receiving device by a pressure medium. This training may, for example, be advantageous if it could be affected due to environmental conditions to the receiving device, the surface quality of the sheet stack. With this development, the sheets of sheet stack are protected by the application means of the recording device against environmental influences.
    In order to form a further possible pre-alignment, it is provided according to a development that the abutment device is designed to be adjustable relative to the support surface by means of adjusting means.
    The object of the invention is also achieved by a method for providing a sheet from a stack of sheets. In this case, a plurality of sheets is delivered to the receiving device, whereby a sheet stack is formed. The sheets can be delivered in an unordered, pre-oriented or orderly manner. If the sheets already come from a previous work step, a rough preorientation will usually be given, so the sheets will be in a basic orientation. But it is also possible that the sheets are already delivered accurately aligned on the receiving device, so that only minor corrections are made in the subsequent alignment process. According to the invention, it is now possible for the separating device to be activated first, thereby separating the sheet located at the top of the stack of sheets from the sheets below it, and then for the aligning device to transfer the separated sheet to a preferred direction. According to the invention, however, it is also possible for the preferred orientation to be produced first; if appropriate, a plurality of metal sheets can also be converted into this preferred orientation and then the singulation is carried out first. It is essential, however, that the final step in which the transfer device transfers the separated and aligned sheet to a processing station. Thus, it is ensured by the method according to the invention that the sheet, which is delivered in a substantially arbitrary order on the receiving device, isolated and accurately aligned is passed to a processing station, regardless of the surface Beschicht- N2010 / 23200 t · the sheets and the geometric dimensions of the sheets, in particular the sheet thickness.
    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:
    Figure 1 shows the individual process steps on a device for sheet metal supply.
    Fig. 2 shows a possible embodiment of the device for carrying out the method according to the invention;
    Fig. 3 a) to d) show a further possible embodiment of the device for carrying out the method according to the invention with an inclined receiving plane;
    Fig. 4 a) to d) another possible embodiment of the device for carrying out the method according to the invention with a slotted guide;
    5 shows a further possible embodiment of the device for carrying out the method according to the invention with variable alignment and separating means;
    Fig. 6 a) and b) another possible embodiment of the device for carrying out the method according to the invention with variable alignment and separating means;
    Fig. 7 shows a weather possible embodiment of the apparatus for performing the method according to the invention.
    1 shows schematically the method steps carried out on a sheet removal station 1 according to the invention. In the first section I, the receiving device 2 is shown, wherein a plurality of sheets 4 are arranged one above the other on a support surface 3 and thus form a sheet stack 5. The receiving device 2 further comprises applying means 6, with which a rough pre-alignment of the sheets 4 of the sheet stack 5 is possible. In particular, it is thus possible, the sheet is discharged substantially unaligned on the receiving device 2 and by the application means 6 a rough pre-alignment is made. N2010 / 23200 - 10
    FIG. 1 shows a possible method in which the singling of the sheets of the Btech stack is carried out as the first method step. For this purpose, a separating device 7 is activated, which decreases the uppermost arranged sheet metal stack 5. The separating device can now have, for example, a sheet-receiving means 8, which sheet-receiving means may be formed for example by a mechanical gripper, a vacuum suction or an electromagnet. The sheet receiving means 8 further comprises a vibrating element 9, which is activated upon lifting of the separating device 7 and thus generates vibrations which are transmitted via the Biechaufnahmemittel 8 on the uppermost arranged sheet and also on a possibly adhering to the removed sheet metal sheet. By these vibrations, it comes to overcoming the adhesive forces between the lifted and the optionally adhering sheet, so that the adhering sheet dissolves and only the top, individual sheet is fed to further processing. This case is shown in section II in FIG.
    Section III now shows the next process step, in which the separated sheet 10 is transferred in a preferred orientation. For this purpose, the separated sheet 10 is transferred to an alignment device 11, which alignment device shown simplified, several orientation means 12 for transferring a separated sheet 10 with a given deviation from a desired preferred orientation, in this preferred orientation. For this purpose, for example, a part of the orientation means 12 may be formed such that it moves into a receiving position in which the separated sheet 10 is inserted, whereupon the drive means 13 moves the orientation means into the alignment position and the sheet moves against the stationary orientation means 12 presses and thereby produces the preferred orientation.
    In section IV of FIG. 1, the singulated and aligned sheet 14 is taken over by a transfer device 15, which is preferably formed by a robot manipulator, from the alignment device 11 and forwarded to a processing machine, not shown. The transfer device also has a sheet receiving means 16 which can receive and forward the sheet 14. According to the invention, the method steps 2 and 3 can now be exchanged for one another, so that after the delivery of the sheets 4 on the receiving device 2, the alignment of the sheets in the alignment device 11 takes place first and then the separation. N2010 / 23200 -11 -
    To simplify the illustration and the description of the method steps, the separating device 7, the alignment device 11 and the transfer device 15 are shown as independent devices in the sections I to IV in FIG. According to the invention, however, it is also possible for these three devices to be integrated so that the sheet receiving means 16 of the transfer device 15 from section IV has the sheet receiving means 8 and the vibrating element 9 of the separating device 7, as shown in section I. In this case, the transfer device 15 would arrange the sheet receiving means 16 on the uppermost sheet of the sheet stack 5, activate the vibrating element and thus achieve separation and separation of the uppermost sheet. Such an embodiment is described in more detail in the following Fig. 2.
    According to a development, the separating device 7 may also be formed such that the vibrating element 9 is arranged integrated in the support surface 3 of the receiving device 2 and thus upon activation of the vibrating element of the entire sheet stack 5 is vibrated and that in this case quiescent sheet receiving means 8 uppermost arranged sheet detected and separated from the sheet stack 5.
    2 a) and b) show an embodiment of the sheet removal station 1 according to the invention in which a sheet stack 5 is arranged on a bearing surface 3 of the receiving device 2. In this embodiment, the transfer device 15 and the separating device 7 are arranged integrated.
    Fig. 2a shows the sheet removal device in the separation of the sheet from the stack of sheets 5, before the alignment of the sheet by the alignment device 11. The transfer device 15 has, for example, a lifting cylinder 17, which can move the Blechaufnahmemittei 18 on the stack at the top arranged sheet. In the case shown, the sheet receiving means 18 is formed by vacuum suction, according to the invention, however, further means for receiving sheet metal are suitable.
    After applying the sheet-receiving means 18 at the uppermost arranged sheet metal of the baffle stack 5, the sheet receiving means 18 is activated, in the illustrated case so suppressed placed on the vacuum suction, so that the sheet receiving means 18 is fixedly connected to the uppermost sheet. By activating the lifting cylinder 17 of the transfer device 15, the uppermost sheet is lifted off, whereby, depending on the surface condition of the sheets, it may happen that not only the uppermost sheet but also one or more further sheets adhere to one another by adhesion and thus adhere to the N2010 / 23200
    - be lifted off together. In order to prevent this, the separating device 7 is activated, which in particular has a vibration element 9, so that the vibrations or vibrations are transmitted via the sheet receiving means 18 to the sheet to be removed. Through these vibrations, the adhesive forces between the sheets are overcome, so that only the uppermost sheet remains connected to the sheet receiving means 18 and thus can be reliably lifted as an isolated sheet 10 from the stack.
    FIG. 2 b shows the situation in which the separated sheet metal 10 is arranged in the alignment device 11. The sheet was lifted by the transfer device 15 from the sheet stack 5 and passed into the alignment device 11 and arranged in this. The aligning device 11 may for example comprise a plurality of orientation means 12, which may be fixed and / or movable. For example, an orientation means 12 may be connected to a pressure cylinder 19, a further orientation means 12 may be connected via a spring means 20 with a further pressure cylinder 19. After inserting the separated sheet 10 in the orientation means 12, the impression cylinder 19 are activated, so that the separated sheet 10 is aligned according to the orientation of the orientation means 12.
    After the alignment of the sheet, this is removed from the transfer device 15 from the alignment device 11 and fed to further processing.
    Fig. 3 shows a further possible embodiment of the sheet removal station according to the invention, in which according to an advantageous embodiment, the support surface 3 of the receiving device 2 is inclined at an angle 21 relative to the horizontal. The receiving device 2 has application means 6, so that when inserting the sheets to form the sheet stack 5, they can slide against each other and thus align themselves automatically in a preferred orientation. In particular, according to an advantageous development, the angle 21 can be selected to be greater than the arctangent of the static friction coefficient μ, so that the static friction forces are overcome by arranging the laminations on one another and the sheets automatically slide against one another and rest and align themselves on the application means 6. The sheet receiving means 18 of the transfer device 15 has an oblique linear guide 22, which linear guide can move the sheet receiving means 18 parallel to the inclination of the sheets on the sheet stack 5. Further, a lifting cylinder 17 is present, which lower the sheet receiving means 18 on the uppermost sheet on the sheet stack 5 and afterwards can lift the separated sheet. N2010 / 23200 - 13-
    At the sheet receiving means 18, a vibrating element 9 may be arranged, which is activated when placing the sheet receiving means 18 on the uppermost sheet of the sheet stack 5 and thus transmits the vibrations to the uppermost sheet and thus overcomes the adhesive forces between the sheets and causes a separation of the sheets. In a further development, however, a vibrating element 9 can also be integrated in the receiving device 2, which transmits its vibrations to the entire sheet stack and thus in turn performs the separation of the sheets.
    The individual steps of sheet separation and takeover are shown in FIGS. 3b-d. In Fig. 3b, the transfer device 15 is placed with the separating device 7 on the uppermost sheet of the sheet stack 5 and the vibrating element 9 of the separating device 7 is activated.
    With activated vibrating element 9, the oblique linear guide 22 is activated, whereby the uppermost sheet is pushed out or pulled parallel to the underlying metal sheets, it being due to the applied vibrations and the inclination of the support surface to overcome the adhesive forces between the uppermost and the underlying Sheet comes and this can thus be isolated from the sheet stack, as shown in Fig. 3c.
    In Fig. 3d, the separated sheet 10 is lifted from the transfer device 15 and fed to the further processing machine.
    Fig. 4 a) to d) shows a further possible embodiment of the sheet metal supplying device according to the invention, in which the transfer device, the separating device and the alignment device are integrated. The transfer device 15 is lowered by means of a lifting cylinder on the sheet stack 5, so that the application means 6 contact the sheet stack 5, in particular the uppermost sheet. Subsequently, the alignment device 11 is activated and the sheet is applied to fixed application means and variable or movable application means and by activating the alignment, the uppermost sheet is aligned. In FIGS. 4c and 4d, this process is illustrated, the viewing direction being selected from the sheet metal stack to the alignment device 11. In the illustrated embodiment, the alignment device 11 on a slide guide 24, whereby it is possible to apply the alignment device 11 in the open state on a roughly aligned stack of sheets and closing the alignment device, ie by moving the movable part of the alignment along the slotted guide 24 are the Applying means 6 pressed against the sheet and this N2010 / 23200
    - 14-brought in accordance with the default by the Vorabausrichtung the application means in the preferred position. This is shown in Fig. 4d. When the alignment has been carried out, the uppermost sheet is singled by activation of the ejection cylinder 25, in which this is pushed out through a slot 23 of the separating device 7. By changing the slot width, for example by a motor drive, the separating device 7 can be adjusted to different sheet thicknesses.
    The advantages of the sheet metal supplying device according to the invention are now, in particular, that a significantly simplified alignment and separation of the sheets is achieved and can be safely ensured for the further processing that only a single sheet is provided in the desired preferred orientation, which in particular for an automated production of is very special advantage.
    Finally, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals and the same component names, the disclosures contained throughout the description can be mutatis mutandis to the same parts with the same reference numerals or identical component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and are mutatis mutandis to transfer to the new location, Furthermore, individual features or combinations of features from the illustrated and described different embodiments of their own, inventive or inventive solutions represent.
    The support surface 3 of the receiving device 2 is inclined relative to the horizontal by an angle, according to this embodiment, the separating device 7 ausschiebt the lowest lying sheet metal stack by a Ausschubschlitz 23 and thus isolated and while the sheets arranged above the separated sheet metal, are retained by a retaining device, not shown, or by the orientation means 12. The separating device 7 has for this purpose one or more ejection fingers 26, which are arranged in a holding device 27. The holding device 27 is formed for example by a base plate and a counter-pressure plate, between which the ejection fingers 26 are arranged such that they contact the specific contour of the sheet metal part to be separated and thereby determine the desired preferred orientation. During alignment or during the singling process, the ejection fingers 26, driven in translation by a pressure cylinder 28 of the singling device 7, press against the contour of the sheet to be separated and thus singulate it in the desired preferred orientation. In this regard, the Aufhahmevorrichtung 2 one or more application means 6, in the case shown, this is formed by two hingedly interconnected plate-shaped components with orientation means 12 arranged thereon. For ease of illustration, the holder of the application means 6 is not shown in relation to the support surface 3 in the figure. By pivoting the two application means 6 and thus a change in the opening angle between the application means 6, a basic advance direction of the sheet metal parts is ensured. In addition, orientation means 12 can be arranged on the application means 6, wherein the orientation means 12 can be adapted more individually to the geometric shape of the sheet metal part and can be arranged on the application means 6 optionally or in fixed grid positions. By changing the opening angle of the two application means 6, each sheet metal part can be fundamentally pre-aligned and further since the support surface 3 is inclined relative to the horizontal, the sheet metal parts will create when placing in the receiving device 2 to the application means 6 and in particular to the orientation means 12 and it will Thus, set a very good advance direction. The exact alignment will set when singulating, with an inclined support surface 3 has the advantage that the weight of the sheet metal parts arranged on the sheet to be separated and thus the Ausschiebkraft has applied the impression cylinder 28 is reduced, and thus the risk of scratch marks the ablative sheet surfaces is reduced.
    6a and 6b show a further possible embodiment of the sheet removal station 1 according to the invention, in which the separated sheet, as in the previous training, separated at the lower end of the sheet stack 5 and aligned by a pressure cylinder 28 of the separating device 7 is pushed through a slot 23 , The receiving device 2 has in the case shown two application means 6, which is relative to the receiving surface 3, on which the sheet stack 5 is arranged, via an adjusting means 29 in its position variable. In the illustrated case, a application means is detected or clamped connected to the receiving surface 3, the second application means 6 can be moved along a parallel guide by the adjusting means 29 so that a gap 30 of variable width is established between the application means. Through this gap 30 a rough advance direction of the sheets of the sheet stack 5 is ensured. The separating pre-N2010 / 23200-16- direction 7 has, similar to before, several ejection fingers 26, which are arranged in a holding device 27, wherein the arrangement is formed such that the ejection fingers 26 at distinctive or unique contours of the sheet metal part 4 create and then upon activation of the printing cylinder 28, the separating device 7, so the holding device 27 and the ejection fingers 26 moves forward, and arranged at the bottom sheet metal part aligned by a Ausschubschlitz 23 and occasionally ausschiebt and passes to a transfer device.
    FIG. 6b shows a plan view of the further embodiment according to FIG. 6a. It is clearly recognizable how the ejection fingers 26 rest against the contour of the sheet-metal parts of the sheet-metal stack 5 and thus, together with the width 30 defined by the abutment means 6, reach a pre-alignment of the sheet-metal stack. Likewise, can be arranged on the front side of the Anlegemit-tel 6 retaining means, which offer an adaptation to the sheet metal parts and thus further possibility for producing a pre-alignment by releasing a clamping connection.
    Fig. 7 shows a further possible embodiment of the sheet removal station according to the invention, in which the support surface 3 is arranged at a distance from a base 31 of the receiving device 2 by a pressure medium 32. The pressure means may for example be formed by a spring, but it is also a design as a pneumatic or hydraulic pressure cylinder possible, which presses the support surface 3, together with the sheet stack 5, in particular against the upper application means 6, wherein the pressure is selected such that there is no jamming of the sheet metal parts of the stack of sheets in the receiving device, however, that when activating the separating device 7, the sheet metal stack 5 at the top arranged sheet is pushed through a slot 23. In the embodiments shown in FIGS. 6 and 7, it is also possible that the support surface 3 is inclined relative to the horizontal, so that the individual sheets of the sheet stack 5 due to gravity create against a docking means 6 and thus is given a pre-alignment. 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. N2010 / 23200
    The embodiments show possible embodiments of the sheet receiving station, 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 possible with each other and this variation possibility due to the teaching of technical action by 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.
    FIGS. 2 to 4 show further and optionally independent embodiments of the sheet receiving station, again using the same reference numerals or component names for the same parts as in the preceding figures. To avoid unnecessary repetition, reference is made to the detailed description in the preceding figures.
    For the sake of order, it should finally be pointed out that for a better understanding of the construction of the sheet receiving station, these or their components have been shown partially unevenly 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 embodiments shown in the figures can 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. N2010 / 23200 * * * 4 · «k * ··» * fc · * «* * * ·» I < · * «· * 4 ·« t | ·
    REFERENCE NUMBERS
    Sheet unloading station Picking device Supporting surface Sheet metal Sheet stacking equipment Separating device Sheet receiving device Vibrating element Separate sheet Aligning device Orientation means Drive means Separate and aligned sheet Transfer device Sheet receiving means Lifting cylinder Sheet receiving means Printing cylinder Spring means Angle Slanted Linear guide Slit Cults Squeegee Ejector finger Holding device Pressure cylinder Steltmittel Gap Base Pressure medium N2010 / 23200
    权利要求:
    Claims (21)
    [1]
    1. sheet removal station (1) comprising a receiving device (2) for a plurality of sheets (4), a separating device (7), an alignment device (11), and a transfer device (15), characterized in that the receiving device (2) or the separating device (7) has a vibration element (9) and that the transfer device (15) transfers a single sheet (10) in a preferred orientation to a downstream processing machine.
    [2]
    2. sheet removal station according to claim 1, characterized in that the vibration element (1) is formed by a rotor with eccentric mass.
    [3]
    3. sheet removal station according to one of claims 1 or 2, characterized in that the separating device (7) is arranged integrated in the receiving device (2).
    [4]
    4. Biechentnahmestation according to claim 3, characterized in that the receiving device (2) has a support surface (3) with attachment means (6), wherein further the vibration element (9) with the support surface (3) is movement connected.
    [5]
    5. sheet removal station according to one of claims 1 to 4, characterized in that the bearing surface (3) of the receiving device (2) is inclined at an angle relative to the horizontal.
    [6]
    6. sheet removal station according to claim 5, characterized in that the angle is greater than arctan μ.
    [7]
    7. sheet removal station according to claim 5 or 6, characterized in that the receiving device (2) has an adjusting means for changing the angle. N2010 / 23200 * t I * * * · «« * «*« I * * * «*» * * 4. ·. «« • · · ·
    [8]
    8. sheet removal station according to one of claims 1 to 7, characterized in that the separating device (7) is arranged integrated in the alignment device (11).
    [9]
    9. sheet removal station according to one of claims 1 to 8, characterized in that the alignment device (11) has a stop device and a counter-pressure means.
    [10]
    10. sheet removal station according to one of claims 1 to 9, characterized in that the alignment device (11) has a slotted guide (24).
    [11]
    11. sheet removal station according to one of claims 1 to 10, characterized in that the alignment device (11) has a Ausschiebeschlitz (23).
    [12]
    12. sheet removal station according to claim 11, characterized in that the slot width of the Ausschiebeschlitz (23) is adjustable.
    [13]
    13. sheet removal station according to one of claims 1 to 12, characterized in that the transfer device (15) is formed by a robot manipulator with a sheet receiving means (16) which sheet receiving means (16) by a gripping attachment, or a vacuum suction, or a magnet holder is formed ,
    [14]
    14. Biechentnahmestation according to claim 13, characterized in that the vibration element (9) in the sheet receiving means (16) is arranged.
    [15]
    15. sheet removal station according to one of claims 1 to 14, characterized in that the transfer device (15) comprises a weight-detecting means.
    [16]
    16. sheet removal station according to one of claims 1 to 15, characterized in that the transfer device (15) has a thickness measuring device. N2010 / 23200 · »» * · ** · · 4 «·· m t« i * * * * 1 * ·. * * «• * * # * · a · * ·« - 3
    [17]
    17. sheet removal station according to claim 8, characterized in that the alignment device (11) has a plurality of ejection means (26), which in a holding device (27) of the separating device (7) are arranged.
    [18]
    18. sheet removal station according to one of claims 1 to 17, characterized in that the bearing surface (3) relative to a base surface of the receiving device (2) by a pressure means (32) is arranged spaced.
    [19]
    19. sheet removal station according to one of claims 9 to 18, characterized in that the stop device is formed adjustable adjusting means (29) relative to the support surface (3).
    [20]
    20. A method for providing a sheet (10) from a sheet stack (5), comprising a sheet removal station (1) according to any one of claims 1 to 19, characterized in that a plurality of sheets (4) are delivered to the receiving device (2) and thereby a sheet stack (5) is formed; the separating device (7) is activated and thereby the sheet located at the top of the stack of sheets is separated from underlying sheets; the alignment device (11) transfers the singulated sheet to a preferential orientation; the transfer device (15) transfers the separated and aligned sheet metal (14) to a processing station.
    [21]
    21. A method for providing a sheet (10) from a sheet stack (5), comprising a sheet removal station (1) according to any one of claims 1 to 19, characterized in that a plurality of sheets (4) are delivered to the receiving device (2) and thereby a sheet stack (5) is formed; the alignment device (11) transfers the sheet to a preferred orientation; the separating device (7) is activated and thereby the sheet located at the top of the stack of sheets of underneath N 2010/23200 »· · · · 4 4 • • • • • • • • • • • • • • • • • • • • • • • 4-located sheets is separated; the transfer device (15) transfers the separated and aligned sheet metal (14) to a processing station. TRUMPF Maschinen Austria GmbH & Co. KG. by lawyers

    &Amp; Partner Attorney at Law N2010 / 23200
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    同族专利:
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    EP2508276A1|2012-10-10|
    AT511305B1|2013-09-15|
    EP2508276B1|2014-12-17|
    引用文献:
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    AT503916B1|2006-10-20|2008-02-15|Trumpf Maschinen Austria Gmbh|Separating device for a bending press comprises a manipulating unit and a transport support positioned on a support surface via positioning protrusions of the transport support and positioning units having centering holders|
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    IT1206844B|1987-01-16|1989-05-11|Prima Ind Spa|METALS FROM A STACK METHOD FOR SHEET SEPARATION|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    AT4702011A|AT511305B1|2011-04-04|2011-04-04|METAL COLLECTION STATION|AT4702011A| AT511305B1|2011-04-04|2011-04-04|METAL COLLECTION STATION|
    EP20120163139| EP2508276B1|2011-04-04|2012-04-04|Sheet metal removal station|
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