• 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 describes a method for viewing and selecting production means, in particular peripheral devices, for the injection molding industry, which are organized to produce an injection molded part (20) in at least one working cell (2 to 4) and interconnected via a network (19, 22) are, according to manual memory requirement (27) on a control device, in particular a work cell control (16 to 18), or on a production means (5), in particular a processing machine (6), all connected production means (5) are queried and defined by these Data, such as the respective settings (29), and program sequences, recipes and other configurations, are read out and together with the internal settings (29), in particular the processing machine (5), to a tool data set (30) for this injection molded part (20) a listing (31) of the necessary production mitmit Tel (5) for the injection-molded part (20) which can be produced on this processing machine (6) can be automatically generated at any time from the tool data set (30) and displayed at an output point (32), preferably the processing machine (6) can.
    公开号:AT520601A1
    申请号:T50902/2017
    申请日:2017-10-29
    公开日:2019-05-15
    发明作者:
    申请人:Wittmann Kunststoffgeraete;
    IPC主号:
    专利说明:

    Process for viewing and selecting production means, in particular peripheral equipment, for the injection molding industry, and an industrial plant
    The invention relates to a method for viewing and selecting production means, in particular peripheral devices, for the injection molding industry, as well as an industrial plant, as described in the preambles of claims 1 and 12.
    There are already known processes for the networking of industrial plants for producing an injection-molded part, in which the individual production means, such as an injection molding machine, a temperature control device, a granular dryer, etc. are crosslinked. The individual devices are connected by a network specialist with a network, whereupon the network specialist makes necessary settings on these devices, in particular assigns a corresponding address. Subsequently, it is necessary for another person skilled in the art to determine and determine the process parameters and required production means, in particular peripherals, necessary for the production of an injection-molded part.
    After making a tool work change, it is again necessary that the industrial plant is reassembled according to the investigations of the previous tool acceptance, the user or machine set-up for this purpose corresponding paper documents in the form of worksheets or
    Tool data sheets takes help. However, there are very often incorrect settings or incorrectly combined production means, which usually leads to broke injection molded parts or in the worst case to damage in the industrial plant.
    Currently, the tool data sheet provides the machine setter with a collection of important information for the proper assembly and setting of injection molding work cells. Since the means of production are very diverse, only the manual creation and reuse of a tool remains manual
    Printing out this tool data sheet, whereupon the machine setter makes corresponding settings suburb, whereby it is very often to confusion, misadjustment, or the overlooks of settings, etc. occurs.
    The object of the invention is therefore to provide a method and an industrial plant of the type mentioned above, with which the above-mentioned disadvantages are avoided and at the same time a simplification for maintenance and repair work, and a tool change are created.
    The object is achieved by the invention.
    The inventive method for viewing and selecting production means is characterized in that after manual storage request to a control device, in particular a work cell control, or to a production means, in particular a processing machine, all connected production means are queried and from these, defined data, such as the respective Settings, as well as program sequences, recipes and other configurations, are read out and, together with the internal settings, in particular the processing machine, be connected to a tool data set for this injection-molded part, wherein a list of the necessary production means for an injection-molded part that can be produced on this processing machine, can be generated at any time automatically from the tool data set and at an output point, preferably the processing machine, can be displayed.
    It is advantageous here that necessary data are collected from the connected production means from a central location, preferably from a processing device, in particular an injection molding machine, and are processed into one or more tool data records which can easily be recalled. Furthermore, there is a significant advantage in that simple automatic administration and integration is created by the automatic independent recognition of newly added or removed devices, in particular production means, and the resulting list or work cell directory. The logical allocation of means of production to the work cell results automatically from the compilation of the respective list. This list or workcell directory is either generated from the tool data set if required or can be part of the data backup process
    Tool data record and can be stored like this, internally on the machine control or in an MES / ERP system, where it is easily retrievable.
    But there are also the measures of advantage, in which after performing a
    Tool exchanges on the processing machine, the associated
    Tool data set via an external MES or ERP system for
    Processing machine or from the internal tool catalog or
    Settings of the processing machine is removed and the
    Tool data set from the processing machine or a
    Workcell control is automatically divided into the corresponding components of the connected and necessary means of production and transmitted to them. This ensures that each means of production its
    Settings automatically assigned from the tool data set.
    This prevents a machine setter from having to select the appropriate one for this tool from a large number of different parameter sets, which can thus lead to confusion. This eliminates the selection and thus the most common source of error, namely the confusion or choice of the wrong parameter set, settings, recipes, programs, etc. It is also possible that all tool records a work cell collected on a processing device or the working cell control can be retrieved, so from In this main station, the machine setter can get an overview of the plant or working cell and the necessary
    Preparing production equipment for a pending tool change.
    Of advantage are the measures in which as tool data sets in addition to the internal machine process parameters of the processing machine for example, the plasticization, the melt entry, and the
    Tool lock, the respective settings, parameters, identifiers of the different production means for mold temperature control, cooling, material drying dosage and conveying, as well as sequence programs for the automatic demolding of the respective injection molded part by robots,
    Gripper IDs, as well as parameters for external process tools and other part-specific data are stored. This ensures that all necessary data is available digitally in the industrial plant, which can be used at any time for the creation of the tool data set. The selection of the data to be used for generating the tool data set is automatic and typically depends on the type of production medium. Manual adjustments to the selection of adjustments are also possible.
    Also advantageous are the measures in which additional data to
    Tool data sets manually directly on a production means, preferably the processing machine or via an external connectable or network-connected input device, in particular a computer, entered and / or selected and stored. This ensures that additional information or remarks can be easily added in a simple manner, which are certainly available at a later tool change and thus can not be overlooked. For example, it may be of interest that the person responsible for the approval of the sampling is entered, so that it can be contacted in case of evolving problems after a tool change. Likewise, design drawings of the tool, details on cooling and hot runners, flow characteristics and other information can be included. Such additional information facilitates the re-commissioning of the system after a tool change or error analysis.
    Also of advantage are the measures in which after a tool change independently of the control device, in particular the work cell control, or a production means, in particular the processing machine, before starting production or commissioning is checked whether all means of production were connected according to associated tool data and the corresponding settings were transmitted. This ensures that only after complete connection of the means of production and error-free transmission of the settings to the production means, according to the tool data set, a production start or commissioning is possible, so that the production of defective injection molded parts, so-called rejects, is prevented.
    However, there are also measures in which by the control device, in particular the work cell control, or the production means, in particular the processing machine, a preview and / or a target / actual comparison of the previously connected production means with the necessary production means according to the stored tool data set is made. This ensures that directly on the means of production, especially at the
    Processing machine, is recognized by a machine setter, which means of production are still attached or completed. Thus, the machine setter has an immediate assurance of properly connected production means, as is not possible in the prior art.
    In addition, the measures are advantageous in which of the
    Control device, in particular the work cell control, or the control of the processing machine, from the tool data records a list for the work cell, in particular a work cell directory is generated. This ensures that a list of the required means of production can be created in a simple manner.
    However, the measures in which the storage of the tool data sets on a production medium, in particular the processing machine, or on an external memory, preferably in an MES / ERP system, are also advantageous. This ensures that the data can be retrieved at any time from different work cells via the network.
    But there are also the measures of advantage, in which the tool data set at least one area for an injection molding machine and one or more areas for automation systems, temperature control, flow control, material dryer and conveyor, dosing, quality control, tool data, hot runner controller, and / or external accessories for the process control, as well as special programs and other information that automatically determined and / or manually recorded, in particular entered. This ensures that a clear digital summary is created, all the
    Contains data and thus incorrect settings are prevented. As a result, the machine setter no longer has to deal with the details of the settings of the various means of production, as would otherwise be necessary with printed tool data sheets.
    But there are also the measures of advantage, in which after a previous automatic detection of a tool data set, in
    Recall of this tool data record, missing means of production on
    Output point are displayed and / or a warning or warning light is triggered. This ensures that a production start or a
    Commissioning after a tool change is only possible with a properly constructed work cell, so that no faulty parts can be produced or damage can occur.
    Furthermore, the object of the invention is also achieved by an industrial plant, in which a control device, in particular a working cell control, or a means of production, in particular a processing machine, for querying and
    Store tool data sets is formed, wherein at a
    Tool exchange a list of the production equipment to be connected to a
    Output point manually or automatically callable and readable.
    It is advantageous hereby that, as a result, no documents recorded on paper, in particular tool data sheets, are more required, which can often lead to confusion and / or data are often overlooked or overread. A major advantage of the inventive solution is that a variety of control and testing mechanisms can be used, which detects incorrectly connected and set production means and commissioning of the industrial plant is prevented.
    The invention will be described with reference to several in the drawings
    Embodiments explained in more detail, but the invention is not limited to the illustrated and described embodiment.
    Show it:
    Fig. 1 is an overview of a plastic processing industrial plant, in a simplified, schematic representation;
    2 shows a flowchart for the industrial plant according to FIG. 1, in a simplified, schematic representation;
    Fig. 3 shows a display on the processing device, in a simplified schematic representation.
    By way of introduction, it should be noted that in the various embodiments, the same parts are provided with the same reference numerals or the same component names, wherein the disclosures contained in the entire description can be mutatis mutandis to the same parts with the same reference numerals and component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the described figure and are mutatis mutandis transferred to the new situation in a change in position. Also, individual features or combinations of features from the illustrated and described embodiments may represent separate inventive solutions.
    Basically, it should be mentioned with reference to the embodiments of FIGS. 1 to 3 that the insert preferably takes place in a plastics-processed industry 1 or industrial plant 1.
    1 to 3, the industrial plant 1 is shown with one or more working cells 2 to 4, wherein certain production means 5, shown in simplified form, are organized in the working cells 2 to 4. The production means 5 preferably consist of at least one processing machine 6 of the plastics processing industry 1, in particular an injection molding machine 6, and at least one peripheral device 7. The peripheral devices 7, for example, from a temperature control unit 7a, a robot or removal robot 7b, a metering device 7c for granules, a Granular dryer 7d, a granular conveyor 7e, a camera system 7f for quality control, an automatic flow controller 7g, etc. may be formed, as shown schematically.
    In the illustrated embodiment of Fig. 1, the production means 5 in a workcell 2 to 4 with a communication means 8 to 10, in particular a switch 8 to 10, connected, ie, that each processing device 6 and peripheral device 7 preferably for better detection with a hardware - or software-trained communication and / or recognition module 11 is equipped. The production means 5 are connected via a line, in particular a commercially available interface cable 12, each having an input / output 13 on the communication means 8 to 10, whereby a wireless connection would be possible for example by WLAN. The communication means 8 to 10 are connected via a communication on / off output 14 for sending data packets 15 or data records 15, as shown schematically, to a higher-order work cell controller 16 to 18. But it is also possible that no communication means 8 to 10 is used and the processing device 6 and the peripheral devices 7 is connected directly to a working cell control 16 to 18, as shown, among other things, in the work cell 3. It is also possible that a plurality of such communication means 8 to 10 are arranged in a work cell 2 to 4. For the sake of completeness, it is pointed out that the individual work cells 2 to 4 are or may be differently equipped, that is to say that each work cell 2 to 4 has a different number and / or type of production means 5. Preferably, a work cell controller 16 to 18 as a higher-level work cell control 16 to 18, in our case, the working cell control 16, formed over the communication input u / o output 14 a data exchange to a parent point a network 19, preferably an internal intranet 19 a and / or a higher-level external network 19, in particular an Internet 19b.
    In such an industrial plant 1, each work cell 2 to 4 operates independently of the other work cells 2 to 4, that is, in each work cell 2 to 4 always those production means 5 are used, which for the production of a particular product, in particular an injection molded part 20 required become. For example, in the illustrated industrial plant 1 in the work cell 2, a tool 21, which is preferably formed from two or more opening molds for injecting a plastic, for producing the injection molding or injection molding 20, for example in the form of a cover in the interior of an automobile Hochglanzausführung or beverage cup, etc., be used, which requires a temperature control unit 7a for the tempering, for the gentle removal of a robot 7b, for the correct composition of the processed
    Plastic granules a dosing 7c, for the drying of the plastic granules a dryer 7d, for the promotion of the granules for plasticizing and
    Injection unit of the processing machine a conveyor 7e, for the inspection of the finished product, a camera system 7f and for the automatic flow control through the tool a flow regulator 7g.
    It can therefore be said that the industrial plant 1 is designed such that it can be managed and controlled by the production means 5 with one or more
    Work cells 2 to 4 performs, wherein the production means 5 are organized in the work cells 2 to 4, which are each formed of preferably at least one processing machine 6 of the plastics processing industry 1 and at least one peripheral device 7, which are interconnected via a production means network 22. The means of production 5 are with the
    Working cell control 16 to 18 connected, wherein the production means 5 automatically from the working cell control 16 to 18 or the corresponding
    Processing machine 6 of the work cell 2 to 4 are detected, whereupon the
    Work cell control 16 to 18 or the processing machine 6 of the work cell 2 to 4 on the one hand communication or data exchange 15 with the preferably network 19, in particular an intranet 19 a and / or a
    Internet 19b, and on the other hand with the production means 5 of the work cell 2 to 4, in particular via the means of production network 22, performs and direct
    Communication of the production means 5 with each other manufactures. When tying a production means 5 with the working cell control 16 to 18 or to the corresponding processing machine 6, these are automatically detected and get the means of production 5 of the working cell control 16 to 18 and the processing machine 6 assigned an address 25, wherein the
    Working cell control 16 to 18 or processing machine 6 automatically a
    List 26 or a work cell directory 26 of existing in the work cell 2 to 4 production means 5 and functions created. This creates a so-called "Plug and Produce", in which only the devices, so the
    Production means 5, preferably via a single line 12 are connected, whereupon all further steps are carried out automatically.
    Each injection molded part 20 requires depending on the processed
    Plastic material, on the number and arrangement of the cavities in the
    Injection mold 21, formation of cooling channels in the respective cavities, arrangement and design of cores and slides, orientation and number of injection points and the requirements for surface texture and other qualitative characteristics, in addition to the internal machine process parameters for the plasticization, the melt entry, and the Tool lock, the use of different means of production 5 for the
    Tool tempering, cooling, material drying and dosing, as well as material promotion to obtain the desired injection molded part 20 in the required quality.
    In this case, an injection-molded part 20 typically passes through a sampling process before release for series production, in which the internal machine process parameters and the necessary production means 5 are set with the respective settings, which is manually entered on paper in worksheets or tool data sheet in the prior art, ie in that the composition of production means 5 necessary for the respective injection molding process is currently manually recorded in a tool data sheet on paper, the associated settings defined in the sampling process being stored either locally in the respective control of the production means 5 or noted on this tool data sheet, so that this tool data sheet, typically in the form of a printed sheet, the machine setters in a tool change of the tool 21 as a guide for the proper assembly of a work cell 2 to 4, in particular re an injection molding 2 to 4, with the necessary production means 5, and the associated settings is used. Since an injection molding work cell 2 to 4 consists of a plurality of production means 5 of different design and expression, an incorrect combination of work cells 2 to 4, or the input of incorrect process parameters is a common problem and a cause for the production of rejects or parts with hidden defects , In some cases, this has already led to product recalls, which had incorporated such a defective injection molded part 20.
    According to the invention, it is now provided that the machine setter preferably on the processing machine 6, in particular a plastic injection molding machine, or a work cell control with output unit, the preview and / or the target / actual comparison, as shown schematically in Fig. 2 or 3, on the Production means 5, which would be necessary for a newly clamped or already in-machine tool 21, allows. This is achieved in such a way that after manual storage request 27, in accordance with the flowchart in FIG. 2, at a control device, in particular a work cell control 16 to 18, or at a production means 5, in particular a processing machine 6, all connected production means 5 are queried (query module 28) and from these, defined data, such as the respective settings, and program sequences, recipes and other configurations, are read out and connected together with the internal settings 29, in particular the processing machine 6, to a tool data set 30 for this injection molded part 20, a listing 31 of the necessary production means 5 for the injection molding 20, which can be produced on this processing machine 6, at any time automatically generated from the tool data set 30 and at an output point 32, preferably a display of the processing machine 6, displayed t, as shown schematically in FIG.
    This process according to the invention or this method allows on the one hand the complete elimination of the previously required tool data sheet on paper, according to the prior art, and on the other hand ensures the correct connection of the necessary production means 5 for the respective tool 21, in particular because of the method specially tuned Control mechanisms can still be used in addition to the displayed tool records to avoid faulty connections and settings. A confusion of the tool data sheet 30 for the processing machine 6, as is easily possible in the prior art, can thus be completely ruled out since the one or more generated
    Tool data sets 30 are stored directly on the corresponding production means 5, in particular the processing mesh 6, so that the
    Machine installer does not have to make any choice, but only this
    Tool data sets 30 can call for these a work cell 2 to 4 and thus there can be no confusion. The generated tool data set 30 can be stored in the system, in particular in the memories of the processing machine 6 or on an external memory, preferably in an MES / ERP system (not shown), so that they can be called up at any time.
    If a manual tool change 33 is initiated, a so-called
    Display mode 34 or tool change mode 34 is started or called, in which a list 31 of the necessary production means 5 is generated from the tool data record 30. For example, it is possible for the tool data set 30 or the tool data records 30 to be linked to the list 26 or the work cell directory 26 in a combination module 35, whereby this module 35 can also be omitted.
    Subsequently, the generated listing 31 is adjustable for
    Output point 32, which in the embodiment shown, the display of
    Processing device 6 is displayed. Of course it is possible that the
    Listing 31 is generated and stored after the manually initiated memory request 27, so that upon manual request of the tool exchange 33, the finished list 31 is only displayed.
    At the output point 32 are preferably a variety of data for the
    Machine setters, such as Listing 31, consisting of the associated production means 5 and the associated process settings,
    Recipes, sequence programs for the injection molding 20, a symbol of the
    Injection molded part 20 and a symbol image of the tool 21, wherein the symbol images may be provided with corresponding notes, links, etc., about which further detailed data can be retrieved. For this purpose, the output point 32 may preferably be formed by a touch screen, so that the
    Machine installer gets more data provided by simply touching the icons, links and / or lists. It is also possible that for the generated listing 31 control lamps (not shown) with different
    Colors, in particular red for missing means of production 5 and green for correctly connected and recognized means of production 5, are assigned, so that the
    Machine setter can easily identify which production means 5 are already connected and which are still missing. For example, other colors of the control lamps can be used for further information, such as yellow indicator light for production means 5 present, but tool record 30 incorrect or not yet transmitted, etc.
    The machine setter can use the individual before or afterwards
    Production means 5, which must be completed for a tool change 33 of the tool 21, complete and replace the tool 21 by a new or reconditioned tool 21. For commissioning, the machine setter can now correctly connect the workcell 2 to 4, in particular the individual production means 5, on the basis of the information presented at the starting point 32. Preferably, however, after a tool exchange 33, for example independently of a test mode 36 by the control device, in particular the work cell control 16 to 18, or a production means 5, in particular the processing machine 6, checked before or during commissioning, if all production means 5 connected according to associated tool data set 30 and the appropriate settings have been made.
    Before or during the check or even by a manual release of the tool exchange 33, it is possible that during or after the tool exchange 33 on the processing machine 6, the associated tool data record 30 via an external MES or ERP system to the processing machine 6 or transmitted from the internal tool catalog 29 or the settings 29 of the
    Processing machine 6 removed and the tool data set 30 is automatically divided into the corresponding components of the connected and necessary production means 5 and transmitted to them. As a result, the machine setter only needs the production means 5 via the interface cable 12 subsequently, so that this is detected by the work cell control 16 to 18 and subsequently the associated tool data record 30 is transmitted to the production means 5. But it is also possible that after detecting the connection of a production means 5 first the newly detected means of production 5 is queried for already installed or set data or tool data sets 30 and then supplemented only the missing data and / or transferred. If all production means 5 were correctly recognized and set, then this is indicated via a release module 37, whereupon preferably by manual input, the industrial plant 1 for the production of the injection-molded part 20 will release and the tool change is completed.
    As tool records, in addition to the machine-internal
    Process parameters of the processing machine 6 for example, the plasticization, the melt entry, and the tool closure, the respective settings, parameters, identifiers of the different
    Production means 5 for tool temperature control, cooling, material drying, dosing and conveying, as well as sequence programs for the automatic demolding of the respective injection molded part by robots, gripper detectors, as well as parameters for external process aids and other part-specific data are stored. The tool data set has at least one area for a processing device 6, in particular an injection molding machine, and one or more areas for automation systems, temperature control devices, flow regulators, material dryers and conveyors, dosing devices, quality control, tool data, hot runner controllers, and / or external accessories for process control, and Special programs and other information on the automatically determined and / or manually recorded, in particular entered.
    Furthermore, it is possible for the display of the production means 5 attached to the injection molding machine 6 and the production means 5 required for the tool 21 to be displayed preferably on the operating unit of the injection molding machine or another central point in the workcell 2 to 4. In particular, it is possible that after a previous automatic detection of a tool data set 30, upon recall of this tool data record 30, missing means of production 5 are displayed on the output point 32 and / or a warning signal or warning light is triggered.
    In Fig. 3 is a display display of the output point 32 at a
    Processing device 6 shown schematically simplified, from which a target / actual
    Comparison 37 is shown. In this case, the display has different areas, however, which can be arranged arbitrarily and only one embodiment has been shown as an example.
    In the upper area is the name of the injection molded part 20 for the
    Tool change indicated, whereupon a representation of the to be produced
    Injection molded 20 follows. It is possible that the representation of the
    Injection molded 20 with various additional functions 39 and links 39, for example, for the deposit of the closing force (as shown), etc., deposited, which can be called at any time by activating. The additional functions 39 and links 39 can also be implemented as menu items.
    Subsequently, the individual means of production 5 are listed, preferably left 40 of the desired state and right 41 of the actual state is shown.
    Between the areas is located a control lamp 42 which indicates whether or not the corresponding listed link or points 43 are present. In this case, the recognition of the connections lying behind the links 43 or points 43 takes place with a tick for everything in order - connection and thus production means present, whereas a cross for no connection found or wrong connection is displayed. This can also be colored with green and red deposited.
    In the embodiment shown, the areas for a processing device 6, in particular a Spritzgießmasche, the peripheral devices 7, in particular a
    Robot 7b, a flow regulator 7g, a temperature control unit 7a, a metering device 7c and a dryer 7d, shown, the corresponding links 43 or
    Production means 43 have.
    In the target / actual comparison 38 links 40 are the names of the necessary connections or production means 43 for the production of the injection molded part 20, that is, when generating the tool data set 30 shown, with right 41 the names of the detected devices are displayed. If a wrong connection is detected, this is marked with a cross, so that the
    Machine installer can recognize this and due to the different names can immediately assign the error.
    In principle, it should be mentioned that the application of the tool data set 30 can also be applied to systems which are not constructed in the form of work cells. It is also possible that a call of the tool exchange 33 is possible at any time, so that the query 27, in particular the no path can be optionally connected to the query 33 for the tool exchange 33 in the flowchart of FIG.
    For the sake of order, it should be noted that the invention is not limited to the illustrated embodiments, but also other
    May include training.
    权利要求:
    Claims (11)
    [1]
    claims:
    Method for viewing and selecting production means, in particular peripheral devices, for the injection molding industry, which are organized to produce an injection molding part (20) in at least one working cell (2 to 4) and are connected to one another via a network (19, 22), characterized in that after manual storage request (27) to a control device, in particular a work cell control (16 to 18), or to a production means (5), in particular a processing machine (6), all connected production means (5) are queried and of these, defined data, such as the respective settings (29), and program sequences, recipes and other configurations are read out and together with the internal settings (29), in particular the processing machine (5), to a tool data set (30) for this injection molded part (20 ), with a listing (31) of the necessary means of production (5) for the injection-molded part (20), which can be produced on this processing machine (6), at any time automatically generated from the tool data set (30) and at an output point (32), preferably the processing machine (6) can be displayed ,
    [2]
    2. The method according to claim 1, characterized in that after performing a tool exchange (33) on the processing machine (6), the associated tool data set (30) via an external MES or ERP system to the processing machine (6) transmitted or from the internal tool catalog or settings (29) of the processing machine (6) is removed and the tool data set (30) is automatically divided into the corresponding components of the connected and necessary production means (5) and transmitted to them.
    [3]
    3. The method according to claim 1 or 2, characterized in that as tool data sets (30) in addition to the internal machine process parameters of the processing machine (6) for example, the plasticization, the melt entry, and the tool closure, the respective settings, parameters, identifiers Different production means (5) for the mold temperature control, cooling, material drying dosing and conveying, and sequence programs for the automatic demolding of the respective injection molded part (20) by robots, gripper identifiers, and parameters for external process aids and other part-specific data are stored.
    [4]
    4. The method according to claim 1 to 3, characterized in that additional data or tool data sets (30) to each one tool (21) manually directly to a production means (5), preferably the processing machine (6) or via an external connectable or via a network (19) connected input device, in particular a computer, entered and / or selected and stored.
    [5]
    5. The method according to any one of the preceding claims 1 to 4, characterized in that after a tool change (33) independently of the control device, in particular the work cell control (16 to 18), or a production means (5), in particular the processing machine (6), Before commissioning, check that all production equipment (5) has been connected according to the associated tool data record (30) and that the appropriate settings have been made.
    [6]
    6. The method according to any one of the preceding claims 1 to 5, characterized in that by the control device, in particular the work cell control (16 to 18), or the production means (5), in particular the processing machine (6), a preview and / or a target - / Is-comparison of the newly connected and set production means (5) with the necessary means of production (5) according to the stored tool data set (30) is made.
    [7]
    7. The method according to any one of the preceding claims 1 to 6, characterized in that from the control device, in particular the work cell control (16 to 18), or the control of the processing machine (6), from the tool data sets (30) a list (26) for the work cell (2 to 4), in particular a work cell directory (26), is generated.
    [8]
    8. The method according to any one of the preceding claims 1 to 7, characterized in that the storage of the tool data sets (30) on a production means (5), in particular the processing machine (6), or on an external memory, preferably in an MES / ERP System takes place.
    [9]
    9. The method according to any one of the preceding claims 1 to 8, characterized in that the tool data set (30) at least one area for an injection molding machine and one or more areas for automation equipment, temperature control, flow regulator, material dryer and conveyor, dosing equipment, quality inspection, tool data, Hot runner controller, and / or external accessories for process control, as well as special programs and other information that automatically determined and / or manually recorded, in particular entered.
    [10]
    10. The method according to any one of the preceding claims 1 to 9, characterized in that after a previous automatic detection of a tool data set, upon recall of this tool data set, missing means of production are displayed at the output point and / or a warning or warning light is triggered.
    [11]
    11. Industrial plant (1) or production system for carrying out the method according to one of claims 1 to 10, comprising at least one or more production means (5), which are preferably combined in one or more working cells (2 to 4), wherein the Production means (5) from at least one processing machine (6) and one or more peripheral devices and preferably the working cell control (16 to 18) for communication with a network (19), in particular an intranet (19a) and / or an Internet (19b ) and on the other hand for communication with the production means (5) of the work cell (2 to 4), in particular via the production means network (22) is formed, characterized in that a control device, in particular a working cell control (16 to 18), or a Production means (5), in particular a processing machine (6), for querying and storing tool data sets (30) is formed, w obei a tool exchange (33) a list (31) of the connected means of production (5) at an output point (32) manually or automatically callable and readable.
    类似技术:
    公开号 | 公开日 | 专利标题
    DE102005045529B4|2016-11-10|Control system of a molding machine
    EP0573912B1|1996-04-10|Method for controlling an injection moulding machine
    EP0852031B1|2001-03-14|System for automating the control and regulation of machines and plants in the plastics industry
    DE602005005128T2|2009-05-14|Injection molding machine
    WO2009053432A1|2009-04-30|Assembly workplace
    AT8380U1|2006-07-15|IDENTIFICATION OF MODULAR MACHINE MOUNTING PARTS
    EP1789246A1|2007-05-30|Computer-technological integration of all operational processes in production machines
    EP1855867A1|2007-11-21|Method for controlling and operating a production cell, and control device
    DE202011106404U1|2011-11-21|Assembly workstation
    EP3368268B1|2020-05-27|Plastic injection moulding machine with data storage for storing text and/or image information
    AT520601B1|2021-11-15|Method for viewing and selecting means of production, in particular peripheral devices, for the injection molding industry and an industrial plant
    EP1417155B1|2007-05-16|Electronic control for glass moulding machines
    EP3804951A1|2021-04-14|Visualization device and evaluation device for a production line comprising at least one cyclically operating molding machine
    DE102012221458B3|2013-12-12|System for automatic format displacement of plant for processing of paper products in consumer goods industry, has control device that controls driving devices depending on state signals such that plant format displacement is synchronized
    DE102008060005A1|2010-06-10|A safety controller and method for controlling an automated plant having a plurality of plant hardware components
    DE102016215742A1|2018-03-01|Gateway and method for connecting a data source system to an IT system
    EP2716578B1|2020-02-05|Method for controlling
    DE102017115864A1|2018-03-15|Visualization of a production arrangement
    AT520775B1|2020-04-15|Procedure for validation of programmed sequences or
    DE102012010537A1|2013-12-05|Programming template for distributed application programs
    EP1362268B1|2011-03-09|Functional check of a unit of a printing machine
    AT522653A1|2020-12-15|Process for the representation and operation of means of production, especially for the plastics processing industry
    EP2901222B1|2019-12-25|Method for supporting operating and changeover processes
    DE102018111603A1|2019-11-21|Method and apparatus for configuring a robotic machining system
    DE102019117093A1|2020-12-31|PRODUCTION MACHINE WITH CONTROL PROGRAM
    同族专利:
    公开号 | 公开日
    WO2019079835A1|2019-05-02|
    AT520601B1|2021-11-15|
    EP3714410A1|2020-09-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    WO2004076143A2|2003-02-27|2004-09-10|Demag Ergotech Gmbh|Identification of modular machine add-on pieces|
    DE102004004695A1|2004-01-20|2005-08-11|Gesellschaft für Industrieanlagen-Planung mbH & Co KG|Electronic documentation method for a technical plant or system in which a plant part or component is manually entered and a program then finds and lists all documents mentioning or referring to the part or component|
    DE102005014941A1|2005-04-01|2006-10-05|Krauss-Maffei Kunststofftechnik Gmbh|Method for providing documentation information of complex machines and installations, in particular an injection molding machine|
    DE102009007559A1|2009-02-04|2010-08-12|Sew-Eurodrive Gmbh & Co. Kg|Drive system for driving machine, has control unit classifying system as safe system and releasing system for controlling and/or for starting, when recognition data agrees with preset recognition data |
    US20060082010A1|2004-10-19|2006-04-20|Saggese Stefano M|Intelligent molding environment and method of controlling applied clamp tonnage|
    DE202011102621U1|2011-06-30|2011-08-25|Webasto Ag|Tool unit of a device for foaming and / or encapsulation of a workpiece and device for foaming and / or encapsulation of a workpiece|
    US9740790B2|2012-03-01|2017-08-22|Proper Digital LLC|Tooling system|
    US10155399B2|2015-06-29|2018-12-18|Inteva Products, Llc|Product molding system and method of labeling molded products|AT522623B1|2019-06-03|2022-01-15|Engel Austria Gmbh|Procedure for checking the suitability of a forming tool|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50902/2017A|AT520601B1|2017-10-29|2017-10-29|Method for viewing and selecting means of production, in particular peripheral devices, for the injection molding industry and an industrial plant|ATA50902/2017A| AT520601B1|2017-10-29|2017-10-29|Method for viewing and selecting means of production, in particular peripheral devices, for the injection molding industry and an industrial plant|
    PCT/AT2018/060245| WO2019079835A1|2017-10-29|2018-10-17|Method for viewing and selecting production means, in particular peripheral devices, for the injection molding industry, and an industrial facility|
    EP18812029.9A| EP3714410A1|2017-10-29|2018-10-17|Method for viewing and selecting production means, in particular peripheral devices, for the injection molding industry, and an industrial facility|
    [返回顶部]