METHOD OF INDICATING PROCESSING STEPS AND PROCESSING MACHINE

Abstract

A method of indicating processing steps to be carried out on a workpiece mounted in processing machine, the method comprising a step of visualizing at the same time or sequentially a succession of individual planned processing steps to be applied to the workpiece, prior to execution of said processing steps and a processing machine comprising a processing unit, a moving table and a controller.

Claims

1-12. (canceled)

13. A method of indicating cutting steps to be carried out on a workpiece mounted in a cutting machine with a cutting disc, the method comprising: a step of visualizing at the same time or sequentially a succession of individual planned processing steps to be applied to the workpiece, prior to execution of said processing steps, said visualizing being indications provided i) on the workpiece as lines by emitted light, or ii) on an image of the workpiece, wherein a display at a processing machine or a mobile device is used for displaying said image.

14. A method of indicating cutting steps according to claim 13, wherein said workpiece is mounted on a movable table.

15. A method of indicating cutting steps according to claim 13, wherein said cutting disc is displaceable.

16. A method of indicating cutting steps according to claim 13, wherein said cutting machine includes a controller and a memory configured to receive user input in the form of cuts to be applied.

17. A cutting machine comprising: a cutting disc, a processing unit, a movable table, and a controller, the processing unit being provided to carry out by said cutting disc one or more cutting steps on a workpiece; the table being configured for fixation of said workpiece; wherein a laser beam emitter is configured to visualize planned cutting lines to be applied to said workpiece prior to performing said cutting steps.

18. A cutting machine according to claim 17, wherein said controller is configured for visualizing by said laser beam emitter at the same time or sequentially a succession of individual planned cutting steps to be applied to the workpiece, prior to execution of said cutting steps.

19. A cutting machine according to claim 17, wherein said table is movable and/or said cutting disc is displaceable, and said controller is configured to calculate said individual planned cutting steps, wherein the calculating includes movement of the table and/or displacement of the cutting disc.

Description

DETAILED DESCRIPTION

[0024] The invention will now be explained in further detail by embodiments in the form of schematic drawings.

[0025] FIG. 1 shows a perspective view of the cutting machine according to a first preferred embodiment.

[0026] FIG. 2A shows a perspective view of the cutting machine including a schematic illustration of a workpiece according to a first preferred embodiment without the shutter.

[0027] FIG. 2B shows a perspective view of the cutting machine with clamping tool, a cutting disc and a crankshaft (workpiece) according to a first preferred embodiment.

[0028] FIG. 3 shows sequentially planned processing steps visualized on the surface of the workpiece according to first embodiment of the light emitting device.

[0029] FIG. 4 shows all planned processing steps visualized on the surface of the workpiece according to first embodiment of the light emitting device.

[0030] FIG. 5 shows the clamping tool used in the processing machine.

[0031] One preferred embodiment of the present invention will be explained with the reference to FIGS. 1 through 4. In all the drawings, the workpiece W is shown schematically.

[0032] FIG. 1. shows a cutting machine 10 comprising a supporting base 12 and a table 14 being movable in the direction of axis Z as well as rotatable(turnable) around the α-axis (see also FIG. 2). The table 14, also referred to as a moving table, is provided with grooves for affixing a clamping tool (shown in FIG. 5) relative to the moving table 14. The grooves are formed as T-slots on the upper surface of the moving table 14. The clamping tool is used for holding the workpieces during the processing sequence.

[0033] The supporting base 12 comprises a number of the electrical components and mechanical units, which are enclosed underneath the moving table 14 through the use of a number of removable and/or pivotable hatches. The supporting base is supported by a number of legs 13 allowing the supporting base and hereby the cutting machine to be adjusted and levelled relative to the ground level G.

[0034] The table 14 is configured to be rotatable around the α-axis and movable in the horizontal (Z-axis) relative to the supporting base 12 and the cutting unit 20 comprises connecting means for allowing an operator to mount a cut-off wheel onto the base of the cutting unit 20. Displacement of the cutting unit 20 is performed in two directions (X-axis and Y-axis) relative to the moving table 14. In all the FIGS, the cutting machine 10 is depicted without a parting wheel, however it is evident that the parting wheel has to be mounted on the base of the cutting unit 20 in order to perform the cutting. The parting wheel is mounted to the base of the cutting machine by releasing the fastening nut, which is connected to a threaded shaft of the base of said cutting unit 20 in a releasable manner.

[0035] As can be seen in FIG. 1, the cutting machine 10 comprises a first front door 17 and a second front door 18. The first front door 17 is slideable in the longitudinal direction (Z-axis) of the cutting machine 10, whereas the second front door 18 is a hinged door with a safety lock for enabling access for an operator to the machine moving table 14 with longitudinal and cross T-slots and the cutting unit 20. By having two front doors, the operator can gain access to the interior work space either by pulling one of the doors or by opening both doors.

[0036] The cutting machine furthermore includes a cooling system 19 having means for recirculating cooling medium and automatic central lubrication systems are integrated into the supporting base of the cutting machine. A number of flexible knee joint nozzles 15 are used for providing additional coolant to the parting wheel during the operation of the machine.

[0037] The cutting machine 10 is used for executing a processing sequence (cutting) in regards to e.g. a metallographic process. The cutting machine comprises a cutting unit 20 connected to a drive unit and a moving table 14 on which a clamping tool can be affixed in the recess (T-slots). The moving table 14 will preferably be guided on guiding elements, which are connected to the supporting base of the cutting machine.

[0038] However it is within the scope of the present invention to accommodate the movable and rotatable table in another way e.g. by using a single guide rod onto which the table can be connected, in this way it is possible to allow linear displacement of the table relative to the cutting unit. Relative displacement of the table 14 is possible along the Z-axis, which corresponds to the longitudinal length of the cutting machine.

[0039] In one preferred embodiment of the table 14 (workbench), said table is movable along a first axis (Z-axis) and can rotate around axis a as shown in FIG. 2. The table 14 has T-slots penetrating the upper surface 14′ of the table making it possible for achieving displacement of the workpiece in a direction being orthogonal to the first axis. The workpiece can be restrained by the clamping tool mounted on the table 14 in relation to the second axis (X-axis), as the T-slots are positioned orthogonal to the first axis (Z-axis).

[0040] The cutting unit 20 comprises a parting wheel used for carrying out the parting cuts in relation to the workpiece, a drive unit for rotating the parting wheel and a pivot mechanism. The pivot mechanism 24 is used for pivoting the parting wheel between a cutting position and a non-cutting position and the pivot mechanism 24 is connected to the supporting base of the cutting machine. The cutting unit 20 is movable in two direction as indicated in FIGS. 1-2 along the X-axis and the Y-axis.

[0041] A controller (not shown in FIGS) is connected to the drive unit 22 and the pivot mechanism 24 (shown in FIG. 1) of the cutting unit 20 as well as a second drive unit (not shown) used for moving the table 14 in the longitudinal (Z-axis). An actuator is connected to the pivot mechanism for allowing the cutting unit to be displaced between a first position (non-cutting) and a second position (cutting position). The displacement of the cutting unit can be controlled by the controller.

[0042] The cutting machine 10 includes a display 50 on which information in regards to the operational process can be displayed hereby providing the operation with valuable information both prior to and during the cutting sequence.

[0043] A joystick 60 can be arranged on the machine, preferable on the second front as shown in FIG. 1. The joystick can be operated by the operator of the cutting machine allowing the operator to move the table along the first axis Z-direction and the second axis X-direction as well as rotating the table around the α-axis. The parting wheel is controlled along the X-direction and Y-direction, by the program in the controller. The joystick allows the operator to manually control the displacement of the moving table 14 and the cutting unit 22. A second display 52 for displaying the image of the workpiece is connected to the cutting machine 10.

[0044] FIG. 2B shows a clamping tool 40 configured for clamping a workpiece such as a crank shaft and the cutting disk 23 for performing cuts in the workpiece. The clamping tool 40 will be mounted on a moving table of said cutting machine and the drive motor for driving the cutting unit 20 will be arranged for rotating the cutting disk.

[0045] FIG. 5 shows a clamping tool used for positing workpiece and the clamping tool 40 is provided with a number of protruding elements 42 connected to a base of the clamping device for enabling the clamping tool to engage the T-slots in the moving table 14. The clamping tool includes a number of clamping element for fixation of the workpiece W. A quick release mechanism allows the clamping tool to be released from the moving table 14.

[0046] The cutting sequence can either be a program stored on the machine or be an operational program, where the operator has to enter a number of operational parameter before the actual cutting is to be performed by the machine, e.g. by using a touch sensitive display on the front of the machine.

[0047] The cutting machine 10 includes a controller and a memory configured for receiving user input in the form of a processing sequence e.g. cutting sequence to be entered by the operator either manually or using e.g. supporting device connectable to the processing machine 10. The cuts (processing sequence) would be visualized on the workpiece prior to execution of the cuts but could also be visualized during the execution of the processing sequence. The controller would be able to receive input such as: the cutting speed, data in relation to the cutting disc etc. The controller preferably is configured for visualizing a succession of individual planned processing step to be sequentially applied to the workpiece, prior to execution of the processing steps.

[0048] Referring now to FIG. 2A-2B, the cutting machine (cut-off machine) for performing a cut-off has at least one light emitting device 30 for visualization of a processes to be carried out on a workpiece mounted in a cutting machine 10. The cutting sequence consists of a number of cuts to be made on the workpiece mounted in the cutting machine 10.

[0049] The cutting machine 10 comprising a cutting unit 20 and a controller arranged in the supporting base of the cutting machine. A parting wheel will be mounted to the cutting unit 20 for carrying out parting cuts. The cutting unit includes a drive unit 22 for rotating said parting wheel. The workpiece will be mounted on a moving and rotatable table of said cutting machine.

[0050] Additionally, the cutting machine must include a protecting element 21 implemented as a number of shutters for preventing coolant liquid from being splashed or spraying beyond the workspace being defined by the shutter positioned between the pivot mechanism and the drive unit 22 of said cutting unit. Furthermore, a spray gun 19′ can be connected to a liquid system system for allowing the operator to be able to spray of the coolant medium from the workpiece.

[0051] The light emitting device 30 is used for visualization of a cutting sequence prior to the steps of performing the actual cuts by said rotating parting wheel. The light emitting device can be configured as a laser beam emitter, which is configured to simulate each cut in said cutting sequence (processing sequence).

[0052] As shown in FIG. 2A-B, the light emitting device 30 can be mounted on the cutting unit of the cutting machine, more preferably the light emitting device 30 is mounted on the protecting element 21 of the cutting unit.

[0053] The light emitting device 30 could also be implemented for allowing the light emitting device 30 to move independently of the cutting disc (work tool) and the cutting unit (processing unit). Referring now to FIGS. 3-4, the controller is configured for receiving a first and a second input data, wherein the first input data can be a complete demonstration cutting sequence and wherein the second input data is the actual cutting sequence. The second input data will be the cutting sequence consisting of the cuts, preferably cuts being inter-related with each other.

[0054] FIG. 3 shows sequentially planned cuts visualized on the surface of the workpiece according to first embodiment of the light emitting device

[0055] The first input data can be a cutting sequence consisting of four planned cuts (L.sub.3, L.sub.2, L.sub.1, L.sub.0), where the first cut L.sub.0 is the indicated planned cut and the operator would therefore be able to inspect whether the planned cut is at the intended position on the workpiece The references L.sub.2 and L.sub.3 indicated with dotted illustrates the next planned cuts.

[0056] The first cutting sequence is not part of the simulation (demonstration function). Once the operator has approved of the indicated processing sequence, the processing step is started. It is with the scope to allow the simulation to be done step-by-step.

[0057] The simulation has an option to approve every step and can be stopped after each move. The operator is able to check whether the indicated processing step is acceptable or not This function can be overridden.

[0058] It is desirable to have the rotating cutting wheel mounted on the drive unit 22 of said cutting unit during the demo cutting sequence. The light emitting device can be a laser mounted on the protecting element covering the cutting wheel and the laser will flash to indicate where the cut is to be made.

[0059] FIG. 4 shows all planned cuts visualized on the surface of the workpiece according to first embodiment of the light emitting device. In this embodiment one or more light emitting devices are used for visualizing all the cuts L.sub.1 to be made to the workpiece. The light emitting device(s) are mounted independently of the cutting unit 20 so that the indication can display independently of the position of the cutting unit.

[0060] The machine is programmed for indicating a planned processing step to be carried out on a workpiece mounted in a cutting machine, the method would include the step of visualizing a plurality of processes to be applied to the workpiece in a sequence, prior to execution of said sequence.

[0061] The visualizing of the plurality processes to be applied to the workpiece is not limited to just one embodiment of the present invention, as the visualizing can be performed by indications provided on an image of the workpiece mounted in the cutting machine.

[0062] In this context it should be realized, that the present invention according to another aspect of the present invention can be implemented, by having a second display 52 for displaying the image of the workpiece. In this embodiment, the visualization of the cutting sequence would be implemented as a purely digital representation of the cutting sequence on a digital image of the workpiece.

[0063] According to a another aspect for the present invention, the method for running a demonstration cutting sequence on a cutting machine comprising the steps: [0064] a) visualizing a first cutting sequence on a workpiece, wherein said visualization is performed prior to the step of cutting; [0065] b) performing a first cutting sequence on the workpiece.

[0066] Additionally a third step can be introduced, wherein the method further comprising the steps: fixating of a workpiece on said cutting machine and moving said workpiece in relation to said cutting machine, wherein the said first cutting sequence being a sequential cutting sequence.

[0067] According to a another aspect of the present invention, a processing method for visualizing a plurality of cuts on a workpiece mounted in a cutting machine, the processing method comprises: [0068] providing a workpiece; [0069] providing light emitting device for visualizing a plurality of cuts; [0070] fixating a workpiece on said cutting machine; [0071] visualizing a first cut on said workpiece.

[0072] The first cutting sequence is not part of the indication step (demonstration function). Once the operator approved of the sequence, it is started. The simulation can be done step-by-step, where the demonstration function has an option to approve every step to be executed by the processing machine e.g. the cutting machine. The processing sequence can be stopped at any time after each operation, the operator is able to check the result after each processing step whether the machining has been performed correct, e.g. the cut-off is acceptable or not. It is furthermore possible to enable an override function hereby allowing the operator with additional possibility when setting up the processing step on the machine.

[0073] Although the invention has been described as a cutting machine in the above with reference to a number of specific and advantageous embodiments, it is understood that the processing machine of present invention is by no means limited to a cutting machine, but the invention could also be implemented on a CNC machine, a grinding machine or a milling machine. Furthermore, the present invention is to be understood compassed by any equivalent or similar structure as described above and also to be encompassed by the scope limited by the below claims defining the protective scope of the present patent application.

REFERENCE NUMBERS

[0074] In the following is given a list of reference numbers that are used in the detailed description of the invention. [0075] cutting machine 10 [0076] supporting base 12 [0077] leg 13 [0078] moving table 14 [0079] upper surface of moving table 14′ [0080] flexible knee joint nozzles 15 [0081] front door 17 18 [0082] cooling system 19 [0083] spray gun 19′ [0084] cutting unit 20 [0085] protecting element 21 [0086] drive unit 22 [0087] cutting disc 23 [0088] pivot mechanism 24 [0089] shutter 25 26 [0090] light emitting device 30 [0091] clamping device 40 [0092] protruding element 42 [0093] clamping element 44 [0094] display 50 [0095] second display 52 [0096] joystick 60 [0097] workpiece w

[0098] Although the present invention as described above has been discussed in the context of a material working machine for making cuts it is clear that the invention may also find use for machines for performing other types of work piece processes, such as milling.