TRANSPORT APPARATUS, METHOD AND COMPUTER PROGRAM PRODUCT FOR LOADING AND UNLOADING AT LEAST ONE MATERIAL MACHINING UNIT

Abstract

The invention relates to a transport apparatus (10) for the collision-free loading and unloading of a material machining unit (1) with a workpiece (5) comprising a guide apparatus (60), a plurality of transport devices (15, 16, 17, 18), wherein one of the transport devices (15) is arranged on a first transport device level (20), as well as another transport device (16) being arranged on another transport device level (21). A multifunctional tooling apparatus (25) for transporting and/or machining the workpiece (5) or the workpiece part is arranged on the transport device (15). Furthermore, the invention relates to a method for loading and unloading the material machining unit (1) using such a transport apparatus (10), as well as a computer program product for loading and unloading according to this method and using such a transport device (10).

Claims

1. A transport apparatus for loading and unloading at least one material machining unit, comprising: a laser cutting machine or a fluid-jet cutting machine, with at least one workpiece or with at least one workpiece part detached from a workpiece comprising a guide apparatus, a plurality of transport devices, which are arranged on the guide apparatus, wherein one of the transport devices is arranged on a first transport device level and comprises at least one moveable tooling apparatus, wherein, at least two other transport device levels are provided, on which at least one of the other transport devices is arranged, as well as the at least one tooling apparatus being multifunctionally designed for transporting or machining the workpiece or at least one workpiece part detached from a workpiece, wherein at least one transport device on a transport device level of the transport apparatus and at least one other transport device on the same or another transport device level of the transport apparatus are moveably arranged relative to one another on the guide apparatus, and wherein the at least one transport device and the at least one other transport device are moveable at least in a movement direction relative to one another in an intersecting manner and at least in two movement directions.

2. The transport apparatus according to claim 1, wherein the at least one tooling apparatus is arranged on the at least one transport device in a pivotable or rotatable or linearly moveable manner and being moveable along the at least one transport device.

3. The transport apparatus according to claim 1, wherein the at least one tooling apparatus comprises at least one tooling unit for machining or transporting a workpiece or at least one workpiece part detached from a workpiece, and wherein the at least one tooling unit is favourably moveable relative to one of the transport device levels.

4. The transport apparatus according to claim 1, wherein the at least one tooling apparatus comprises at least one other tooling unit for machining or transporting a workpiece or at least one workpiece part detached from a workpiece.

5. The transport device according to claim 2, wherein at least one tooling apparatus is rotatable or pivotable around an axis which is orientated in parallel to one of the transport device levels of the transport apparatus or the tooling apparatus is pivotable or rotatable around another axis which is orientated normally to one of the transport device levels of the transport apparatus or is arranged along at least one of the axes in a linearly moveable manner.

6. The transport apparatus according to one claim 1, wherein the at least one tooling apparatus comprises a detection unit for detecting a process parameter.

7. The transport apparatus according claim 3, wherein the at least one tooling unit comprises a tool or a tool holding unit for holding at least one tool, wherein the at least one tool can favourably be selected from the group of manufacturing tools comprising a forming tool, a separating tool, a joining tool, a coating tool, a generative manufacturing method tool and a transport tool and a marking tool.

8. The transport apparatus according to claim 1, wherein at least two transport devices are moveably arranged on a common transport device level and wherein the common transport device level is arranged between a transport device level and another transport device level.

9. The transport apparatus according to claim 1, wherein at least one transport device is a material storage carriage or a tool changing carriage or a material transport carriage comprising a double-fork transport carriage or aspiration apparatus transport carriage.

10. The transport apparatus according to claim 1, wherein at least two guide apparatus carriers having a longitudinal extension are arranged for guiding at least one transport device, the at least two guide apparatus carriers arranged in parallel to the at least one transport device level of the transport apparatus.

11. The transport apparatus according to claim 10, wherein at least two transport devices are provided and each guide apparatus carrier comprises at least two guide sections for guiding the transport devices, wherein, at least one of the guide sections is a guide rail section or at least one of the guide sections extends along the longitudinal extension of the guide apparatus carrier along an entire longitudinal extension of the guide apparatus carrier.

12. The transport apparatus according to claim 10, wherein at least one of the transport devices is arranged hanging on the guide apparatus carriers of the guide apparatus.

13. The transport apparatus according to claim 1, wherein a plurality of carrier supports is provided for carrying the guide apparatus carriers and wherein at least two of the carrier supports are preferably conical and arranged in a strut-free manner directly connected to at least one of the guide apparatus.

14. A transport apparatus for loading and unloading at least one material machining unit comprising a laser cutting machine or a fluid-jet cutting machine, with at least one workpiece or with at least one workpiece part detached from a workpiece comprising a guide apparatus, a plurality of transport devices arranged on the guide apparatus, wherein one of the transport devices is arranged on a first transport device level and comprises at least one moveable tooling apparatus, wherein at least one other transport device level is provided on which at least one of the other transport devices is arranged, as well as the at least one tooling apparatus being multifunctionally designed for transporting or machining the workpiece with at least one workpiece part detached from a workpiece, wherein the at least one tooling device comprises at least one tooling unit for machining or transporting a workpiece or at least one workpiece part detached from a workpiece, and wherein the at least one tooling unit is moveable relative to one of the transport device levels.

15. The transport apparatus according to claim 14, wherein at least one tooling apparatus is arranged on the at least one transport device in a pivotable or rotatable or linearly moveable manner and moveable along the at least one transport device.

16. The transport apparatus according to claim 14, wherein at least one tooling apparatus comprises at least one other tooling unit for machining or transporting a workpiece or at least one workpiece part detached from a workpiece.

17. The transport device according claim 15, wherein at least one tooling apparatus is rotatable or pivotable around an axis which is orientated in parallel to one of the transport device levels of the transport apparatus or the tooling apparatus is pivotable or rotatable around another axis which is orientated normally to one of the transport device levels of the transport apparatus or is arranged along at least one of the axes in a linearly moveable manner.

18. The transport apparatus according to claim 14 wherein at least one tooling apparatus comprises a detection unit for detecting a process parameter.

19. The transport apparatus according to claim 14, wherein at least one tooling unit comprises a tool or a tool holding unit for holding at least one tool, wherein the at least one tool can be favourably selected from the group of manufacturing tools, including a forming tool, a separating tool, a joining tool, a coating tool, a generative manufacturing method tool or a transport tool or a marking tool.

20. The transport apparatus according to claim 14, wherein at least one transport device is moveably arranged on a transport device level of the transport apparatus and at least one other transport device is moveably arranged on the same or on another transport device level of the transport apparatus relative to one another on the guide apparatus, wherein, the at least one transport device and the at least one other transport device are moveable at least in a movement direction relative to one another in an intersecting manner.

21. The transport apparatus according to claim 14, wherein at least two transport devices are moveably arranged on a common transport device level, wherein, the common transport device level is arranged between a transport device level and another transport device level.

22. The transport apparatus according to claim 14 wherein at least one transport device is a material storage carriage or a tool changing carriage or a material transport carriage comprising a double-fork transport carriage or aspiration apparatus transport carriage.

23. The transport apparatus according to claim 14, wherein at least two guide apparatus carriers, each with a longitudinal extension, are arranged for guiding at least one transport device, the at least two guide apparatus carriers arranged in parallel to the at least one transport device of the transport apparatus.

24. The transport apparatus according to claim 23, wherein at least two transport devices are provided and each guide apparatus carrier comprises at least two guide sections for guiding the transport devices, wherein, at least one of the guide sections is a guide rail section or at least one of the guide sections extends along the longitudinal extension of the guide apparatus carrier along an entire longitudinal extension of the guide apparatus carrier.

25. The transport apparatus according to claim 23, wherein the at least one of the transport devices is arranged hanging on the guide apparatus carriers of the guide apparatus.

26. The transport apparatus according to claim 14, wherein a plurality of carrier supports is provided for carrying the guide apparatus carriers, wherein at least two of the carrier supports are preferably conical and arranged in a strut-free manner directly connected to at least one of the guide apparatus.

27. (canceled)

28. (canceled)

29. (canceled)

Description

[0087] The figures show:

[0088] FIG. 1 a first embodiment of a transport apparatus according to the invention in a lateral view;

[0089] FIG. 2 the transport apparatus according to the invention in FIG. 1 in another lateral view;

[0090] FIG. 2b another transport apparatus according to the invention in a lateral view analogous to FIG. 2;

[0091] FIG. 2c an enlarged view of a section of the transport apparatus in accordance with the marking IIc in FIGS. 2b and 2d.

[0092] FIG. 2d another transport apparatus according to the invention in a lateral view analogous to FIGS. 2 and 2b;

[0093] FIG. 3 a perspective view of a transport apparatus according to the invention in accordance with FIG. 1;

[0094] FIG. 4 a schematic illustration of a tooling apparatus complete with tooling units;

[0095] FIG. 5 a cross section of a guide apparatus;

[0096] FIG. 6 a lateral view of another embodiment of a transport apparatus according to the invention;

[0097] FIG. 7 a lateral view of another embodiment of a transport apparatus according to the invention; and

[0098] FIG. 8 a lateral view of another embodiment of the transport apparatus according to the invention in accordance with FIG. 1.

[0099] FIGS. 1 to 3 show the transport apparatus 10 according to the invention for loading and unloading a material machining unit 1 with at least one workpiece 5 or a workpiece part 7 detached from a workpiece 5. In this embodiment, the material machining unit 1 is a laser cutting machine with a moveable workpiece holder, for example, with a moveable workpiece holding table 9. It is to be understood that the workpiece and the workpiece part is not part of the transport apparatus 10.

[0100] The transport apparatus 10 comprises a guide apparatus 60, with two guide apparatus carriers 65, 66 and a plurality of carrier supports 80, which bear the guide apparatus carriers 65, 66. The transport apparatus 10 additionally comprises a plurality of transport devices 15, 16, 17, 18, which are arranged on the guide apparatus 60. At least two of the transport devices 15, 16, 17, 18 are moveably arranged relative to one another in the transport apparatus 10.

[0101] The transport devices 15 and 18 are arranged on a first transport device level 20 and another transport device 16 is arranged on another transport device level 21. The transport device 15 comprises a moveable multifunctional tooling apparatus 25, which is designed for transporting and/or machining the workpiece 5 or the workpiece part 7. In this connection, the term workpiece 5 (not exhaustive) is referred to as an unmachined plate-shaped workpiece with a large area, for example, a raw metal sheet or a glass plate, as well as a workpiece that has already been machined, such as a semi-finished product or a sheet skeleton. In this connection, under the term workpiece part 7. a part of a workpiece 5 is understood.

[0102] The transport devices 15, 16, 17, 18 of the transport apparatus 10 are also suitable in order to transport or machine other workpiece shapes, such as cube-shaped, sphere-shaped, or also trapeze-shaped workpieces.

[0103] As is shown in FIG. 5 in detail, the guide apparatus carrier and 66 of the guide apparatus 60 each comprise a longitudinal extension and are arranged in parallel to the transport device level 20 of the transport apparatus 10. Furthermore, the guide apparatus carriers 65 and 66 of the guide device 60 are arranged in parallel to one another. Each guide apparatus carrier 65 and 66 comprises three guide sections 70, 71, 72, on which the transport devices 15, 16, 17, 18 are guided. The guide sections 70, 71, 72 are each designed as guide rail sections and extend along the entire longitudinal extension of the respective guide apparatus carrier 65 and 66 in this exemplary embodiment.

[0104] As can be recognized in FIG. 2, transport devices 16 and 17 are arranged in a manner hanging on guide apparatus carriers 65 and 66. The transport apparatuses 15 and 18 are arranged in a supporting manner on the guide apparatus carriers 65 and 66.

[0105] The carrier supports 80 to carry the guide apparatus carriers 65 and 66 are conical and free of struts and are directly connected to the guide apparatus carriers 65 and 66. In an alternative embodiment (not shown here), the carrier supports 80 can be connected to guide apparatus carriers 65 and 66 via a connecting piece.

[0106] The multifunctional tooling apparatus 25 in this embodiment shown is arranged on the transport device 15 in a pivotable, rotatable and linearly moveable manner. The tooling apparatus 25 can be moved along a straight line relative to the transport device 15, in particular, perpendicularly. The tooling apparatus 25 is additionally pivotable and rotatable around an axis 27, which is orientated in parallel to one of the transport device levels 20, 21, 22 of the transport apparatus 10, as well as pivotable and rotatable around another axis 28, which is orientated normally to one of the transport device levels 20, 21, 22 of the transport apparatus 10. Furthermore, the tooling apparatus 25 can be arranged along at least one of the axes in a linearly moveable manner. Here, the tooling apparatus 25 is arranged in a linearly moveable manner along the transport device 15.

[0107] A first movement apparatus 30, which connects the tooling apparatus 25 and the transport device 15 makes a linear movement of the tooling apparatus 25 along a first straight line possible and is, for example, designed as a telescopic arm. The first movement apparatus 30 comprises an electrical, mechanical, hydraulic or pneumatic drive system (not shown) for example. Furthermore, the movement apparatus 30 is designed as a pivoting device, wherein the tooling apparatus 25 is, in part or as a whole, rotated out of the transport device level 20. Furthermore, the movement apparatus 30 is designed as a pivoting apparatus in order to pivot the tooling apparatus 25, in part or as a whole, out of the transport device level 20. Furthermore, the movement apparatus 30 is designed in order to carry out one of the combinations of a linear movement and a rotational movement, a linear movement and a pivoting movement, a rotational movement and a pivoting movement, as wells as a linear movement, a rotational movement and a pivoting movement.

[0108] Thereby, transport steps as well as machining steps, such as the drilling of a bore hole through the workpiece 5, can also be carried out outside of the perpendicular of the transport device levels and also outside of a vertical running relative to the workpiece surface.

[0109] In an alternative embodiment, the multifunctional tooling apparatus 25 comprises a movement device, which is arranged between at least one end of the tooling unit 40 and the tool 55 (not shown).

[0110] The transport device 15 and the tooling apparatus 25 comprise at least one other movement apparatus 31, which makes a movement of the tooling apparatus 25 along the transport device 15 possible. Thereby, this movement apparatus 31 comprises a guide system and is designed with an electrical, mechanical, hydraulic or pneumatic drive system. In an embodiment (not shown here), the first movement device 30 and the movement apparatus 31 can be integrated into one another.

[0111] The multifunctional tooling apparatus 25 is designed in order to carry out at least one process work step or a process step on one of the transport device levels 20, 21, 22 or on a workpiece 5, for example, on the tool holding table 9 of the material machining unit 1 without the tooling apparatus 25 colliding with the transport devices 15, 16 and 17.

[0112] In this embodiment, the multifunctional tooling apparatus 25 comprises two tooling units 40 and 41 for machining and/or transporting a workpiece 5 or a workpiece part 7. The tooling units 40 and 41 are (for example, by means of a telescopic arm drive as a movement apparatus (not shown)) are moveable relative to one of the transport devices 16, 17 and 18 in order to machine or to transport a workpiece 5 or a workpiece part 7. Thereby, the workpieces 5 or the workpiece parts 7, which are located on another transport device level 21 and or on the workpiece holding table 9 of the material machining unit 1, can be machined using a tool 56 of the tooling unit 41, in particular, marking, mechanical machining or other process work steps. In the embodiment shown, a change is made from a tooling unit 40 to the other tooling unit 41 via a rotational movement by means of the movement apparatus 30. In addition to the described rotational movement, other movement sequences are still possible for the tooling unit change, such as a pivoting movement or a linear movement.

[0113] The tooling unit 40 comprises a tool 55, which is, for example, an aspiration apparatus for transporting a workpiece 5. The other tooling unit 41 comprises another tool 56, which is a drilling tool for example. The tooling unit 41 comprises a tool holding unit 50, by means of which the tool 56 is held.

[0114] At least one of the tooling units 40, 41 comprises means to drive a workpiece 55, 56 or to support the functionality of a workpiece 55, 56. For example, such a means comprises a mechanical gearbox, a fluid supply or a drive means.

[0115] As tools 55 and 56 for carrying out a process work step, in general, a manufacturing tool is understood, for example a drill, a milling tool, a thread cutter, a deburring tool or a forming tool. Furthermore, under this term, a stamping tool, a centre-punch tool, a punching tool, a cold-forming tool, a chamfering tool, a scribing tool, a glue nozzle or a separation tool is also understood. Other examples include a mechanical cutting tool or a coating tool, for example, a painting tool, a lubrication tool or a generative manufacturing tool, for example a laser cutting tool, a laser sintering tool, a stud-welding tool, a cleaning tool or a transport tool. Additional examples include an aspiration apparatus, a gripping apparatus, a printing unit four labelling, a labelling tool or a marking tool, for example a laser marking tool or a marking needle.

[0116] The tools can also be designed as oil dispensers or as oil dispenser nozzles or also as a degreasing device.

[0117] The aforementioned tools do not comprise an exhaustive list, since no other tools can be arranged on the tooling apparatus 25 for machining or transporting.

[0118] The transport devices 15 and 16 are moveably arranged relative to one another on the guide apparatus 60. Thereby, transport devices 15 and 16 can be moved at least in a movement direction relative to one another in an intersecting manner. The other transport device 18 is moveably arranged on the transport device level 20 and can be moved in a movement direction relative to the transport device 16 in an intersecting manner.

[0119] The multifunctional tooling apparatus 25 comprises detection unit 35 or a detector 36 for detecting a process parameter. The detection unit 35 is arranged right next to the tooling unit 40 or is arranged on a point, which is at a distance away from the tooling unit 40. The detection unit 35 is designed as a camera, for example a video camera, or as a detector 36, which detects electromagnetic radiation or, for example, a barcode or a QR code, or as a mechanical detection unit, for example, a pushbutton sensor.

[0120] Process parameters comprise parameters describing the workpiece 5 or the workpiece part 7 detached from the workpiece, such as their weight, their geometric shape and size, their cutting-edge parameters, their material, their surface quality as well as parameters, which describe the movement in the transport apparatus, such as the movement speed of one or a plurality of transport apparatuses.

[0121] The detection unit 35 detects the exact position of the workpiece 5 or of the workpiece part 7 and guides the tooling apparatus 25 or the tools 55 and 56 arranged on the tooling units 40 and 41 to the workpiece position defined in advance during the process sequence in order to then carry out at least one other process work step on the workpiece 5 or the workpiece part 7.

[0122] As an alternative, the at least one multifunctional tooling apparatus 25 or another multifunctional tooling apparatus is arranged for machining and/or transporting a workpiece or workpiece part on the other transport device levels 21 or 22. Furthermore, as an alternative, in other transport device, for example, an aspiration apparatus transport carriage 86 or a double-fork transport carriage 85 is arranged on the first transport device level 20.

[0123] In FIGS. 2b and 2c, another transport apparatus according to the invention for loading and unloading a material machining unit 1 is shown. This transport apparatus 10 differs from the transport apparatus 10 described with reference to the FIGS. 1, 2, and 3 to 8 due to the fact that the multifunctional tooling apparatus in this embodiment comprises a tooling unit 40.1 for machining and transporting of a workpiece 5 or of a workpiece part 7 and a tooling unit 41 for transporting a workpiece 5 or a workpiece part 7. In turn, the tooling units 40.1 and 41 are (for example, by means of the previously mentioned telescopic arm drive as a movement apparatus (not shown)) are moveable relative to one of the transport devices 16, 17 or 18. The tooling unit 40.1 comprises a fork-shaped or U-shaped end, on which, a tool 55 designed as an aspiration apparatus for transporting a workpiece 5 is arranged on a fork end. Another tool 55.1 designed as a drilling tool is arranged on another fork end. The other tooling unit 41 comprises another workpiece 56, which, for example, is another aspiration apparatus for transporting a workpiece 5. As an alternative however, a different type of tool can be arranged there. With respect to other reference numbers not explicitly mentioned here, reference is fully made to the description of FIGS. 1, 2 and 3 to 8.

[0124] In FIG. 2d, another transport apparatus 10 according to the invention for loading and unloading a material machining unit 1 is shown, which differs from the transport apparatus shown in FIG. 2b in that both tooling units 40.1 and 41.1 comprise a fork-shaped or U-shaped end there. With respect to other reference numbers not explicitly mentioned here, reference is fully made to the description of FIGS. 1, 2 and 3 to 8.

[0125] As is described in more detail in FIG. 6 and FIG. 7, the transport device 18 can be designed as a material storage carriage and/or as a tool changing carriage. This tool changing carriage can be combined with a material transport carriage, for example, a double-fork transport carriage 85 or an aspiration apparatus transport carriage 86.

[0126] The transport apparatus 10 (see FIG. 2) comprises a control unit 105, which, for its part, comprises a memory 101. The memory 101 stores process parameters among other things, which are detected here by the detection unit 35. The memory 101 stores a computer program product, which carries out a predefined process sequence with the transport devices 15, 16, 17, 18 and the at least one tooling apparatus 25 of the transport apparatus 10 as well as the at least one material machining unit 1 after loading into the memory 101. The individual drive units (for example, motors) of the transport devices 15, 16, 17 and 18, as well as the tooling apparatus 25, however also the material machining unit 1 are electrically connected to one another for transmitting control data and/or process sequence data, such as a process parameter. In another embodiment, the memory for the computer program product is arranged on a computer distance away from the transport apparatus, which is favourably connected to the control device 105.

[0127] The material transport apparatus 57 shown in FIG. 3 is moveably arranged on a separate guide apparatus 58. The material transport apparatus 57 is moveable when released from the guide apparatus 60 of the transport apparatus 10.

[0128] The guiding mechanism 58 protrudes at least partially into the working region of the transport apparatus 10 and makes a transport of the workpieces 5, 6, or of the workpiece parts 7 into the transport apparatus 10 possible or out of this, as well as in a direction along the longitudinal extension of the guide apparatus carrier 65 of the transport apparatus 10.

[0129] On the edge region 90 of the transport apparatus 10, at least one security gate 100 is provided so that unauthorized entry to the transport apparatus 10 is prevented, particularly when it is operating. Thereby, the safety is increased for personnel and work accidents can be prevented. Furthermore, at least one of the transport devices 15, 16, 17, 18, in particular a material storage carriage, favourably becomes accessible to the transport apparatus 10 via the security gate 100 in order to make easy loading or unloading of the transport devices 15, 16, 17, 18 with workpieces 5, 6 possible, for example, using a forklift.

[0130] The transport apparatus 10 in accordance with FIGS. 1 to 3 is designed according to the invention in such a way that they can load and unload other material machining units in addition to the first material machining unit 1 with the aid of their transport devices 15, 16, 17, 18, as well as the multifunctional tooling apparatus 25.

[0131] In an alternative embodiment, a plurality of transport devices each with at least one multifunctional tooling apparatus are provided in the transport apparatus, which, for example are arranged on a common transport device level and make the transport and/or the machining on or to a plurality of material machining units possible. For example, the number of transport devices each with at least one tooling apparatus corresponds to the number of the material machining units that can be reached by this transport apparatus. By means of this, the other material machining units can be simultaneously supplied with workpieces and/or workpiece parts can be machined, which further improves the process sequence.

[0132] In the following, the method according to the invention for loading and unloading the material machining unit 1 with a workpiece 5 or a workpiece part 7 with the transport apparatus 10 is presented.

[0133] The loading of at least one material machining unit 1 with a workpiece 5 takes place with one of the transport devices 16, 17, 18, for example, using the aspiration apparatus transport carriage 86 or the double-fork transport carriage 85.

[0134] Then, the loading of the workpiece 5 or a workpiece part 7 detached from a workpiece from the material machining unit 1 takes place with the multifunctional tooling apparatus 25, wherein, simultaneously, a process work step is carried out on another workpiece 6 or at least one workpiece part 8 detached from a workpiece using a transport device 15.

[0135] As an alternative, one of the transport devices 16, 17, 18, in particular the aspiration apparatus transport carriage 86, takes a workpiece part 7 that is already been machined from the material machining unit 1 during a parallel process work step.

[0136] During a parallel process work step, the double-fork transport carriage 85 unloads the sheet skeleton of a machined workpiece 5, for example, from the material machining unit 1 or from another material machining unit.

[0137] Furthermore, at least one tool 55, 56 of the tooling apparatus 25 carries out a process work step on the workpiece 5 or on the workpiece part 7 before unloading the workpiece 5 or the workpiece part 7 from the material machining unit 1.

[0138] During another method step, the tooling apparatus 25 carries out a tool change on the tooling unit 40 of the tooling apparatus 25 or on at least the tooling unit of another tooling apparatus while loading the workpiece 5 or the workpiece part 7 onto the material machining unit 1. In addition or as an alternative to the aforementioned steps, a change is made to the other tooling unit 41 of the tooling apparatus 25.

[0139] The detection unit 35 detects a process parameter during another process step, for example, during unloading and stores this in a memory 101.

[0140] As an alternative, an intersecting transport movement is carried out by the transport devices 15 on a first transport device level 20 and by one of the transport devices 16, 17, 18 on another transport device level 21 while unloading the workpiece 5 or the workpiece part 7 from the material machining unit 1. The workpiece apparatus 25, which is arranged on the transport device 15, carries out a linear movement and/or a rotational movement and/or a pivoting movement, which guides the tooling apparatus 25 out of at least one of the transport device levels 20, 21, 22. Thereby, a collision between one of the transport devices 15, 16, 17, 18 and the tooling apparatus 25 is ruled out.

[0141] Furthermore, another material machining unit is loaded with another workpiece 6 or with at least one workpiece part 8 detached from another workpiece 6 during the unloading of the workpiece 5 or of the workpiece part 7 from the material machining unit 1, whereby, favourably, process work steps take place in parallel and fully automatically on a plurality of workpieces 5 and 6 or workpiece parts 7 and 8. The loading preferably takes place using one of the double-fork transport carriages 85 or one of the aspiration apparatus transport carriages 86.

[0142] Furthermore, the tools 55, 56 of the tooling apparatus 25 on the transport device 15 from a first transport device level 20 carry out a process work step on a workpiece 6 or on a workpiece part 8, which is located on another transport device 18 on another transport device level 21. Favourably, the process work step is carried out on a transport device 18 directly next to the material machining unit 1, whereby a time-saving machining on the workpiece 6 is implemented. Favourably, a tool change can also be carried out on an adjacent transport device level. This method step can be carried out at any time before, during and after loading or unloading the material machining unit 1.

[0143] Furthermore, the at least one tooling apparatus 25 carries out a tool change on at least one tooling unit 40 of the tooling apparatus 25 or on at least one tooling unit of another tooling apparatus while unloading the workpiece or the workpiece part 7 from the material machining unit 1. Being furthermore favourable, the tooling apparatus 25 changes to another tooling unit 41 of the tooling device 25.

[0144] The tooling apparatus 25 carries out another process work step on the workpiece 5 or on the workpiece part 7 after unloading the workpiece 5 or the workpiece part 7 from the material machining unit 1. Preferably, thereby, a sorting section or a mounting step is carried out. Favourably, other different process work steps, such as sorting or storing for example, are carried out simultaneously at one process work step on the workpiece.

[0145] Before the automatic or programmable process sequence starts, at least one of the transport devices 15, 16, 17, 18, in particular the transport device 16 designed as a material storage carriage, is filled with a stack of workpieces 5, 6, in particular, using a forklift, a crane or by hand by the operator.

[0146] In another embodiment, the transport apparatus 10 is connected to a large-scale workpiece storage and the workpieces 5, 6 are favourably supplied by means of a separate rearrangement apparatus into the transport apparatus 10 in a fully automatic manner. (Not shown).

[0147] In the following, the computer program product according to the invention for loading and unloading at least one material machining unit 1, in particular, a laser cutting machine or a fluid-jet cutting machine or a water-jet cutting machine, with at least one workpiece 5 or with at least one workpiece part 7 detached from a workpiece according to the method according to the invention with a transport apparatus 10.

[0148] The computer program product 109 triggers one of the previously described methods for loading and unloading using the transport apparatus 10 after loading into the memory 101 of the control device 105 and processing of at least one process parameter of the loading process and unloading process, which was detected by a detection unit of the transport apparatus 10 (e.g. the detection unit 35) or of an external detection unit.

[0149] FIG. 4 shows another embodiment of a multifunctional T-shaped tooling apparatus 325 with three tooling units 340, 341 and 342. Furthermore, here, the orientations of the axes 327, 328 are shown with reference to a transport device level 320. The tooling units 341, 342 each show a tool holding unit 350 for alternately holding different tools 355 and 356. The tooling apparatus 325 is arranged around a first axis 327 in a pivotable, moveable and/or rotatably moveable manner. The first axis 327 is arranged in parallel to the transport device level 320. The tooling apparatus 325 can thereby additionally assume any orientation relative to the second axis 328. The tooling apparatus 325 can also be moved around the second axis 328 in a rotatable and/or pivotable manner, which is arranged here normally to the transport device level 320. The axis 328 can also be inclined by an angle relative to the transport device level 320.

[0150] In another equivalent embodiment, the tooling apparatus 325 is linearly moveable along at least one of the axes 327, 328 or, in addition to a linear movement, is moveably or pivotably arranged around at least one of the axes 327, 328.

[0151] The movements of the tooling apparatus 325 can be carried out due to the movement device 330, which connects the tooling device 325 and one of the transport devices. The movement device 330 is arranged with a first movement device part on the tooling apparatus 325 and arranged on the related transport device with a correspondingly shaped counterpart piece. The counterpart piece is preferably designed as a guide rail and favourably continues to extend along the entire transport device.

[0152] FIG. 6 shows the transport apparatus 110 according to the invention, which loads and unloads a material machining unit 1 using a workpiece holding table 9. The transport device 118 is arranged on the transport device level 121. The transport device 118 is designed as a workpiece storage carriage and as a material transport carriage and is moveable along the guide apparatus carriers 165, 166. A workpiece storage section 133 for storing workpieces 6 is arranged in a region of this transport device 118. The workpiece storage section 133 is favourably moveably arranged relative to this independently of the moveable transport device 118. A double-fork device 185 or an aspiration apparatus 186, which can be moved perpendicularly to the transport device movement, is arranged in another region of the transport device 118, which can favourably be moved perpendicularly to the transport device level 121. A transport device 115 with a moveable multifunctional tooling apparatus 125 is located on another transport device level 120. The tooling apparatus 125 is designed to carry out at least one process work step on the workpieces 5 on the workpiece storage section 133 in a collision-free manner. In this embodiment, the tooling apparatus 125 comprises a tooling unit 140 with a tool 156 as well as a tooling unit 141, on which another tool 155 is arranged over a tool holder 150. The transport devices 115 and 118 are arranged over two guide sections 171, 172 provided on the guide apparatus carriers 165, 166 hanging or being supported on the guide apparatus carriers 165, 166 and guided by these.

[0153] FIG. 7 shows a transport apparatus 210. The transport device 218 is arranged on the transport device level 221 and is designed as a tool changing carriage and as a material transport carriage. The transport device 218 can be moved along the guide apparatus carriers 265, 266. Thereby, a tool storage section 233 for storing tools 256, 258, 259 are arranged in a region of the transport device 218. The tool storage section 233 is favourably moveably arranged relative to this independently of the moveable transport device 218. A double-fork device 285 that can favourably be moved perpendicularly to the transport device movement or an aspiration apparatus 286 that can be moved perpendicularly to the transport device movement is also arranged in another region of the moveable transport device 218. Favourably, a tool change can be carried out in a first region of the transport apparatus 210 and a loading or unloading of the material machining unit 1 can be carried out in another region of the transport apparatus 210 with only the transport device 218. A transport device 215 with a moveable multifunctional tooling apparatus 225 is located in another transport device level 220. The tooling apparatus 225 is designed in order to carry out a process step, for example, a tool change to the workpiece storage section 233 in a collision-free manner. The transport devices 215 and 218 are arranged over two guide sections 271, 272 provided on the guide apparatus carriers 265, 266 hanging or being supported on the guide apparatus carriers 265, 266 and guided by these.

[0154] The transport device 115 in accordance with FIG. 6 on the transport device level 120 as well as the transport device 215 in accordance with FIG. 7 on the transport device level 220 are designed in such a way that each can be synchronously moved along the guide apparatus carrier 165, 166 or 265, 266 with the other transport device 118 or 218 and, thereby, the process sequence can be carried out on the or with both transport devices 115, 118 or 215, 218 simultaneously.

[0155] FIG. 8 shows an alternative transport apparatus 410 according to the invention. The transport apparatus 410 differs from the previously presented embodiments due to the fact that another transport device 418 is provided on the transport device level 421 in addition to a first transport device 416. The transport devices 415, 416 and 418 are moveably arranged relatively to one another on the guide apparatus 460. Thereby, the transport device 415, which comprises the multifunctional tooling apparatus 425, and the transport device 416 are at least moveable relative to one another in an intersecting manner at least in a movement direction. The other transport device 418 can be moved in a movement direction relative to the transport device 415 in an intersecting manner. In the embodiment shown, the transport device level 421 is arranged between transport device level 420 and the other transport device level 422. Two transport devices 416 and 418 on the transport device level 421 increase the transport flexibility of the transport apparatus 410. The transport device 418 comprises an aspiration device transport carriage 486, which can load or unload either the material machining unit 1 or the transport device 417 with a workpiece 5 or a workpiece part detached from a workpiece. The tooling apparatus 425 can carry out a tool change on the transport device 416 simultaneously.

REFERENCE LIST

[0156] 1 material machining unit [0157] 2 other material machining unit [0158] 5 workpiece [0159] 6 other workpiece [0160] 7 workpiece part [0161] 8 other workpiece part [0162] 9 workpiece holding table [0163] 10 transport apparatus [0164] 15 1.sup.st transport device [0165] 16 2.sup.nd transport device [0166] 17 3.sup.rd transport device [0167] 18 4.sup.th transport device [0168] 20 1.sup.st transport device level [0169] 21 2.sup.nd transport device level [0170] 22 3.sup.rd transport device level [0171] 25 multifunctional tooling apparatus [0172] 27 axis [0173] 28 axis [0174] 30 1.sup.st movement apparatus [0175] 31 other movement apparatus [0176] 35 detection unit [0177] 36 detector [0178] 40 1.sup.st tooling unit [0179] 41 2.sup.nd tooling unit [0180] 40.1 other 1.sup.st tooling unit [0181] 41.1 other 2.sup.nd tooling unit [0182] 50 tool holding unit [0183] 55 tool [0184] 55.1 tool [0185] 56 tool [0186] 56.1 tool [0187] 57 material transport device [0188] 58 guide apparatus of the material transport device [0189] 60 guide apparatus of the transport apparatus [0190] 65 1.sup.st guide apparatus carrier [0191] 66 2.sup.nd guide apparatus carrier [0192] 70 1.sup.st guide section [0193] 71 2.sup.nd guide section [0194] 72 3.sup.rd guide section [0195] 80 carrier support [0196] 85 double-fork transport carriage [0197] 86 aspiration apparatus transport carriage [0198] 90 edge region [0199] 100 security gate [0200] 101 memory [0201] 105 control unit [0202] 109 computer program product [0203] 110 transport apparatus [0204] 115 1.sup.st transport device [0205] 118 2.sup.nd transport device [0206] 120 1.sup.st transport device level [0207] 121 2.sup.nd transport device level [0208] 125 multifunctional tooling apparatus [0209] 133 workpiece storage section [0210] 140 1.sup.st tooling unit [0211] 141 2.sup.nd tooling unit [0212] 150 tool holding unit [0213] 155 tool [0214] 156 tool [0215] 165 1.sup.st guide apparatus carrier [0216] 166 2.sup.nd guide apparatus carrier [0217] 171 1.sup.st guide section [0218] 172 2.sup.nd guide section [0219] 185 double-fork transport carriage [0220] 186 aspiration apparatus transport carriage [0221] 210 transport apparatus [0222] 215 1.sup.st transport device [0223] 218 2.sup.nd transport device [0224] 220 1.sup.st transport device level [0225] 221 2.sup.nd transport device level [0226] 225 multifunctional tooling apparatus [0227] 233 workpiece storage section [0228] 240 1.sup.st tooling unit [0229] 241 2.sup.nd tooling unit [0230] 250 tool holding unit [0231] 255 tool [0232] 256 tool [0233] 258 tool [0234] 259 tool [0235] 265 1.sup.st guide apparatus carrier [0236] 266 2.sup.nd guide apparatus carrier [0237] 271 1.sup.st guide section [0238] 272 2.sup.nd guide section [0239] 285 double-fork transport carriage [0240] 286 aspiration apparatus transport carriage [0241] 320 transport device level [0242] 325 multifunctional tooling apparatus [0243] 327 axis [0244] 328 axis [0245] 330 1.sup.st movement apparatus [0246] 340 1.sup.st tooling unit [0247] 341 2.sup.nd tooling unit [0248] 342 3.sup.rd tooling unit [0249] 350 tool holding unit [0250] 355 tool [0251] 356 tool [0252] 366 tool [0253] 410 transport apparatus [0254] 415 1.sup.st transport device [0255] 416 2.sup.nd transport device [0256] 417 3.sup.rd transport device [0257] 418 4.sup.th transport device [0258] 420 1.sup.st transport device level [0259] 421 2.sup.nd transport device level [0260] 422 3.sup.rd transport device level [0261] 425 multifunctional tooling apparatus [0262] 486 aspiration device transport carriage