METHOD AND SYSTEM FOR ADJUSTING INPUT VALUES WHEN OPERATING A MACHINE

Abstract

The invention relates to a method for operating a machine, in particular a coating machine, preferably a narrow-edge coating machine, such as those used e.g. in the furniture or component industry. The method comprises the following steps: transferring a plurality of input values from a storage device to a control device of the machine, the input values relating to at least one material and/or tool used in a processing of a workpiece, preparing the machine for processing based on the input values, processing a workpiece with the prepared machine, changing the input values based on the processing and/or the product, and transferring the changed input values to the storage device.

Claims

1. A method for operating a machine, comprising the following steps: transferring a plurality of input values from a storage device to a control device of the machine, the input values relating to at least one material and/or tool used in a processing of a workpiece, preparing the machine for processing based on the input values, processing a workpiece with the prepared machine, changing the input values based on the processing and/or the product and transferring the changed input values to the storage device.

2. Method according to claim 1, wherein the storage device is a cloud, the machine having an internet-enabled interface.

3. Method according to claim 1, wherein, after the step of transferring the plurality of input values, a comparison is made with at least one machine parameter.

4. Method according to claim 1, wherein a material testing step is carried out after the preparation step and before the processing step.

5. Method according to claim 4, wherein the material consumption is calculated during the material testing step.

6. Method according to claim 1, wherein the machine is a narrow-edge coating machine.

7. Method according to claim 6, wherein preparation comprises one or more steps selected from: adjusting a processing temperature of an adhesive, selecting a coating material, adjusting the machine based on the workpiece to be processed, adjusting and/or positioning one or more processing devices.

8. Method according to claim 1, wherein the processing of a workpiece comprises one or more steps selected from: heating a coating material and/or workpiece, applying an adhesive to the workpiece and/or coating material, detecting a fed coating material, pressing a coating material onto a workpiece.

9. Method according to claim 1, wherein a quality check is carried out on the product by sensors of the machine, before the input values are changed.

10. Method according to claim 1, wherein, after the workpiece has been processed, an actual material consumption value is transferred to the storage device.

11. Method according to claim 10, wherein a control command to order a material is generated based on the actual material consumption value.

12. Computer program, comprising control commands which, when the computer program is executed, cause a computer to carry out the method according to claim 1.

13. System for operating a machine, comprising: a storage device and a control device, a device for transferring a plurality of input values from a storage device to a control device of the machine, the input values relating to at least one material and/or tool used in a processing of a workpiece, wherein the control device is adapted to prepare the machine for processing based on the input values, output control commands for processing a workpiece with the prepared machine, and change input values based on the processing and/or the product and transfer them to the storage device.

14. System according to claim 13, wherein the storage device is a cloud, the machine having an internet-enabled interface.

15. System according to claim 13, further comprising a testing device for checking the material.

16. System according to claim 13, wherein the machine is a narrow-edge coating machine.

17. Method according to claim 5, wherein the material consumption refers to the consumption of a coating material or of an adhesive.

18. Method according to claim 10, wherein the actual material consumption value refers to the consumption of an adhesive and/or a coating material.

Description

BRIEF DESCRIPTION OF THE FIGURE

[0029] FIG. 1 schematically illustrates a process of an embodiment of the method according to the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0030] The schematic FIGURE illustrates a process sequence in order to elucidate a method for operating a machine, in particular a processing machine for coating a narrow edge of a workpiece in sheet form. Modifications of certain steps of the method may be individually combined with one another to form further embodiments. Although the following description is not to be understood as restrictive but rather as exemplary, individual features, in particular individual process steps or modifications thereof, can also be used to specify the invention.

[0031] The method is described by means of an embodiment in which a coating material is applied to a narrow edge of a workpiece in sheet form. It is evident that other processes for working or processing a workpiece can also be carried out with the described method, for example coating a broad side of a workpiece, joining two or more workpieces, printing a surface of a workpiece or the like.

[0032] Such a workpiece in sheet form may comprise wood or a wood-based material. For example, it may be a solid wood board, chipboard, MDF board, HDF board or the like. The coating material in strip form to be applied to the narrow edge is, for example, a veneer or a plastic coating material.

[0033] To carry out the method, a storage device X1 is provided, which can be a globally available storage device, such as a cloud, or a storage unit available locally at a manufacturer.

[0034] The storage device X1 stores design data and/or manufacturing data describing the product and/or defining its manufacture. Furthermore, material-specific data, preferably provided by the manufacturer, as well as machine data of the machine are stored in the storage device X1. In particular, workpiece dimensions, data concerning the workpiece material, data concerning the coating material, etc. relating to the initial workpiece are stored in the storage device X1.

[0035] Material-specific data of workpieces and of materials to be processed that are stored in the storage device X1 can, for example, be stored in the storage device X1 by the manufacturer or supplier of a specific workpiece or a specific material. Also, a data record of the materials to be processed can be created by the user of the processing machine and stored in the storage device X1.

[0036] Furthermore, machine data are stored that include the so-called machine capability (processing capabilities of a specific processing machine) and wear values of certain components, such as actuators.

[0037] From this information available in the storage device X1, in order to carry out a processing operation, a control device X2 of a processing machine retrieves the data needed to prepare the machine for production (step S1). Preparation of the machine can comprise one or more sub-steps.

[0038] According to the embodiment example, the machine is a coating machine for applying a coating material to a narrow edge of a workpiece. Such a machine may have a roller application system for processing hot melt adhesives. In particular, such a roller application system applies a heated, viscous adhesive to a workpiece. Furthermore, a pressure device, in particular a pressure roller, is provided, with which a coating material in strip form is pressed onto a narrow edge of a workpiece provided with adhesive.

[0039] According to another embodiment, the coating machine is adapted to apply a coating material already provided with an adhesive or adhesion creating means, so that the roller application system can be omitted.

[0040] In the embodiment example, in the course of which a coating material is to be applied to a narrow edge of a workpiece, this concerns data relating to the adhesive, the coating material, the workpiece, and to the compensation for specific processing tools and/or environmental influences. Based on the information supplied to the control device X2, the processing machine can be prepared for a manufacturing operation in a first step by retrieving a setting for a specific type of adhesive and deriving the processing temperature from this. This means that the glue container is preheated to a certain temperature (step S1-1), taking the specific type of adhesive into account.

[0041] Furthermore, the processing machine is set up for a specific coating material, including the thickness of the coating material and the height of the coating material, in order to make adjustments in the area of the pressure zone (step S1-2). Set-up of the coating material can be realised as follows:

[0042] Based on the workpiece information, in particular the material type and/or composition, the machine can be set up for the specific workpiece to be processed, with the degree of porosity, the density, the workpiece temperature and the workpiece thickness being derived from the indication of the workpiece material (e.g. HDF, MDF, etc.), the type of workpiece (solid, chipboard, etc.) and the workpiece thickness (step S1-3).

[0043] Furthermore, known wear values are compensated (step S1-4) by, for example, selecting an exact position of a particular actuator while taking wear into account or, if the wear value of a particular actuator exceeds a maximum wear value, requesting maintenance (step S1-4).

[0044] Also, environmental influences, such as ambient temperature, can be compensated for in order to select the position, taking into account the thermal expansion coefficient of an actuator and/or compensation for a change in length (step S1-5).

[0045] After the processing machine has been prepared for a processing operation using one or more of steps S1-1 to S1-5, the material availability is checked and a consumption of the material to be processed required for a specific production order is calculated.

[0046] To prepare a processing operation, a material feed for a specific coating material is also preselected on the basis of the above-mentioned test steps (step S2).

[0047] The processing machine is now in an operational state and production can be started. A production process (step S3) usually comprises several sub-steps.

[0048] At the start of production, the feed is started, and a specific heating temperature is set on the basis of predefined processing temperatures to heat the coating material and/or the workpiece (step S3-1).

[0049] Furthermore, a workpiece to be processed and entering the processing area is detected, with, in particular, the condition of the surfaces of the narrow edge to be coated, surface irregularities and/or possible deviations from a plane surface of the narrow edge being determined. In particular, a photo-optical sensor is used for this purpose, which determines the porosity of the surface to be coated and, if applicable, the volume of the open pores.

[0050] Based on this information, the application of adhesive is, if necessary, adjusted and subsequently initiated (step S3-2), so that an application of adhesive is matched to the type and condition of the detected surface. Furthermore, a specific contact pressure of a pressure roller for pressing the coating material onto the narrow edge of the workpiece can be set.

[0051] In a further sub-step of the manufacturing process, the coating material to be applied to the workpiece is detected (S3-3), with in particular the actual thickness of the coating material being determined. Taking these data into account, edge thickness compensation can be realised in the processing machine.

[0052] Edge thickness compensation can be achieved by adjusting the pressure roller and other downstream processing tools. For example, a profile cutter for processing the workpiece provided with the coating material is adjusted based on the determined thickness of the coating material.

[0053] As a further step during production, the coating material is now applied to a narrow edge of a workpiece in sheet form. For this purpose, the temperature and position of the coating material during feeding and also, where appropriate, the degree of contamination of a glue application roller are determined, so that the energy input and the edge position can be adjusted (step S3-4).

[0054] After the coating material has been applied to the workpiece, quality monitoring takes place within the processing machine or in a downstream station. This includes in particular an evaluation of the joint quality, which indicates whether the adhesive joint is visible between the coating material and the workpiece in the edge area of the coating material. From the quality monitoring it is possible to determine whether or not the processing meets a defined quality standard (step S3-5).

[0055] As part of quality monitoring, the quality of the adhesive joint is tested in particular. The adhesive joint is to be minimally visible to the viewer of the product. This requires a continuous and even application of adhesive on the narrow edge of the workpiece.

[0056] Thus, from the individual steps in the production of a workpiece, in particular the preparation of the machine, the testing of the coating material to be applied and the actual production process, a large amount of information is recorded, and measures for adjusting the machine are derived from it. The measures are defined by certain input values, leading to adjustments on a specific processing machine.

[0057] These input values are documented and transferred to the storage device X1 as one or more data records. If the storage device X1 is a globally available control device, information from different processing machines of different users can be combined and stored.

[0058] The storage device X1 is therefore able to modify the stored input values on the basis of the data records fed back and adapt them to certain parameters. It is also possible to further refine parameters through machine learning and thus provide an improved database.