Operating unit for an injection molding machine

专利摘要:
Operating unit (1) for an injection molding machine (2) having a, in particular touch-sensitive, screen (3) for displaying an operating program (B), a control or regulating unit (4) for transmitting operating signals (S) to injection molding machine elements (5), wherein in the control unit (4) the operating program (B) is stored, and at least one control button (6), upon actuation of the control unit (4) initiates an action of a Spritzgießmaschinenelementes (5), wherein the operating program (B ) has a hierarchical system architecture, with at least one upper plant-specific level (M1) and one upper, task-specific level (M2), wherein in the plant-specific level (M1) between different plant areas (L1-L5) and in the task-specific level (M2) between different task areas (F1-F5) is selectable, and a plurality of sublevels (U), wherein in each selected sublevel (U) only the selected equipment area (L1-L5) or only the selected task area (F1-F5) associated run-relevant program pages (P) are displayed.
公开号:AT513665A1
申请号:T1239/2012
申请日:2012-11-26
公开日:2014-06-15
发明作者:Gerhard Dipl Ing Dr Dimmler；Josef Dipl Ing Giessauf；Rainer Hölzl；Albin Dipl Ing Kern；Friedrich Mairhofer；Helmut Ing Steinparzer；Johann Voggeneder；Karl Dipl Ing Wiesinger
申请人:Engel Austria Gmbh；
IPC主号:

专利说明:

• • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • t | ··· · · 1 «• · # ··« 1 71627 22 / gb
The invention relates to an operating unit for an injection molding machine with a, in particular touch-sensitive, screen for displaying an operating program, a control or regulating unit for transmitting operating signals to Spritzgießmaschinenelemente, wherein in the control or regulating unit, the operating program is stored, and at least one control button at the actuation of the control or regulating unit triggers an action of a Spritzgießmaschinenelementes. In addition, the invention relates to a method for operating such a control unit.
The complexity of operating injection molding machines has increased dramatically in recent years. This is mainly due to the fact that more and more different types of injection molding machines are produced with different production possibilities, but all these different injection molding machines are operated via one and the same operating program. As an example, reference is made to such an operation of an injection molding machine to the applicant's own, not previously published, Austrian patent application A 851/2011, which is mainly about the simplification of the assignment of trigger symbols to control buttons.
Due to the high complexity of today's injection molding machines and the high degree of automation, a large number of parameters are distributed on many different image pages or program pages. For the operators, it is difficult to find the desired parameter in this variety of image pages and parameters and to navigate between the image pages (program pages) quickly. Depending on the tool design, it is very common that not all the functionality of the machine is needed, but this is the operator over the entire operating program and its submenus completely available.
The object of the present invention is therefore to provide an operating unit and a method in which the known from the prior art 2/25 • Φ · ·· «φ φφφφ ···· • ••••••• · φ • φ ·· φ φφ φφφ * • · «φφφφ φ · φ φ φ φ φ φ φ φ ·
····· ΦΦ ^ Φ φφφ I
Disadvantages are resolved. In particular, the operating complexity is to be reduced and a clear operation of the injection molding machine is made possible.
This is achieved for an operating unit with the features of the preamble of claim 1, characterized in that the operating program is a hierarchical system architecture with at least one upper, plant-specific level, wherein in the plant-specific center level between different plant areas selectable, and an upper, task-specific level, wherein the task-specific center level is selectable between different task areas, and a plurality of sub-levels, wherein in each selected sub-level only relevant to the selected plant area or only the selected task area associated program pages are displayed has. This new navigation or operating concept is therefore reduced to a few levels and will usually be limited to two levels (upper level and lower level).
Preferably, one of the two upper levels is automatically preselected when entering the operating program, but both upper levels in the hierarchical system architecture are of equal importance. A button for each non-selected, upper level is also displayed, by pressing this button corresponding to the different system areas or the different task area are displayed.
Alternatively, however, it is also possible in the hierarchical system architecture to provide a main level in which a plant-specific menu and a task-specific menu can be selected. For better clarity, it can further be provided for this purpose that the main plane and at least one of the upper planes can be displayed simultaneously. In this second variant, two starting points for the system, which are offered on the start screen, are displayed in the main level. These two are the plant-specific menu (plant area orientation) and the task-specific menu (task orientation). If the plant-specific menu has been selected, the entire production cycle is displayed, which is used to display image pages or 3/25 ··············································································· · · * * • · ····· * * ·· ··· ··· · ··· »3
Display program pages that are assigned to the selected area. Examples of plant area are closing area, spraying area, storage area, demoulding area, periphery area, etc. With the selected task-specific menu, all the tasks that a user could perform with the plant in a company are displayed. Examples include machine and robot maintenance, retooling, preparing production, start / stop production, control production, troubleshooting, optimizing production, initial sampling, monitoring, system settings, production settings, custom tasks, etc. In addition, there are a variety of configuration options when the task-specific menu is selected selectable. The task-oriented menu is also the starting point for an assistant.
Especially for a clear start of an operating sequence is preferably provided that the system or the operating program is started with a simple representation of the product cycle of the entire system over which important program pages can be reached very quickly. Through the use of special screen components, especially in the upper level (selection carousel or quick call button grid) in the center of the visualization area of the screen, you are quickly and intuitively guided through the different image pages or program pages. The selection carousel and the task or plant selection are used to intelligently pre-select the program pages offered. For a particularly clear overview, the current navigation path is displayed in the title bar. By means of a corresponding button (Hierarchie key, Back key, Up key) can be changed to an overlying level. Preferably, it is therefore provided that hierarchy keys can be displayed in each level, wherein a higher level can be displayed by actuating the hierarchy key.
Preferably, it is further provided that a program area or a task area can be assigned new program pages or program pages of other system areas or other task areas. Accordingly, 4/25 ·· ··· ·· ········
······ * · · · · · · · · · · · · · · · ················································································ ·· · every operator has the option of adding or removing image pages or program pages to a plant area or a task, if this seems necessary or helpful to him. It is also possible for the operator to change the sequence for adapting to the work sequence.
In order to achieve an additional reduction in complexity, it is preferably provided that a distinction is made between configuration parameters and production parameters. The configuration is selected once when using a new tool, thereby significantly reducing the parameters required for operation.
Another way to reduce operator complexity is by restricting the operator the displayable image pages and access rights based on his role as a user. For this purpose, each user is assigned a user role during the assignment of the access authorization. Possible user roles are jumpers, all-rounders, process technicians, quality managers, maintenance staff, support staff, ENGEL technicians, etc. Thus, in the task overview (task-specific level) only those tasks are offered which the operator has to fulfill according to his role as a user. For example, the maintenance person will find the tasks "system", "maintenance" and "all image pages" or those tasks which are not assigned to his user role will be displayed as inactive image pages (grayed out). The content of the task "all image pages" is in turn specifically limited to the user role. A simple authorization concept thus assigns each user authorizations or user roles which he may actually use. In doing so, the type of authorization can be specified, for example "read", "modify", "delete" or "use". Also the limitation on range within which values may be changed is possible. For example, the user role "Auxiliary Personnel" may change any value "x" only by a maximum of 2%, but the "Process Technician" by 100%. 5/25
• ···················································································································
By using these concepts, the number of program pages offered to an operator as well as the parameters thereon are reduced by up to 90% in a large number of applications.
Protection is also desired for a method which includes the steps of optionally displaying a main level of the operating program with a plant-specific menu and a task-specific menu, optionally selecting between the plant-specific menu and the task-specific menu, displaying an upper, plant-specific level or an upper, task-specific level the previously selected menu or an automatically preselected selection, selecting a plant area from different displayed plant areas or a task area from different displayed task areas, displaying a sublevel depending on the selected plant area or the selected task area, where in each selected sublevel only the selected plant area or only the selected tasks task-related program pages are displayed has.
After selecting the sublevel, any next steps can be selected. Most frequently, the steps of selecting a trigger symbol displayed on the program page, thereby triggering a corresponding action of an injection molding machine element, or selecting or changing a machine-specific parameter displayed on the program page or navigating via navigation keys to a next or previous program page of the selected plant area or selected task area or navigate using hierarchy keys to another level of the operating program or select a meta level of the operating program.
Protection is further desired for an injection molding machine with several activatable injection molding machine elements and a control unit according to the invention. 6/25 ··················································································
· 4 4 · 4 4 4 4 4 4 4 4 4 4 4 4
Further details and advantages of the present invention will become apparent from the
Figure description with reference to those shown in the drawings
Embodiments explained in more detail below. Show:
1 an injection molding machine,
1a is an operating unit of the injection molding machine,
FIG. 2 schematically shows the hierarchical system architecture of FIG
Operating program,
3 is a screen extract at selected plant-specific level,
Fig. 4 shows a screen extract at selected task-specific level and
5 shows a screen extract of a sub-level.
1 schematically shows an injection molding machine 2 and FIG. 1 a shows an operating unit 1. In FIG. 1, some movable or controllable injection molding machine elements 5 are shown schematically. By way of example, the movable platen 5a, the heatable or coolable molds 5c and the rotatable or translationally movable injection screw 5b are shown. An action of this injection molding machine elements 5 can be triggered by pressing the control button 6. The control button 6 may be formed as a separate, mechanical button or as part of the touch surface of the screen 3. Depending on the assigned trigger symbol A, an operating signal S is transmitted to the corresponding injection molding machine element 5 when the operating key 6 is actuated via the control unit 4 and the operating program B, and the corresponding action is carried out. On the screen 3 of the control unit 1, the meta-level Z and various machine-specific parameters R are shown in addition to the selection symbols A. Assigning the trigger symbols A to the control button 6 is done as known per se.
In Fig. 2, the stored in the control or regulating unit 4 operating program B is shown schematically with the three levels (main level H, upper level M and lower level U). The main level H is the start page of the operating program B and thus forms the top of the hierarchical 7/25 •···················································································. ···········································
System architecture. In this main level H, it is possible to select between the plant-specific menu N1 and the task-specific menu N2.
If the plant-specific menu N1 is selected, the operating program B and accordingly the display on the screen 3 changes to the upper plant-specific level M1. Since the entire injection molding machine 2 is divided into different plant areas L1 to L5 (e.g., closing area, injection area, storage area, etc.), these plant areas L1 to L5 are displayed symbolically in the center plane M1. Advantageously, these different plant areas L1 to L5 are represented by a circular or carousel-like selection (see also FIG. 3) of the existing plant areas L1 to L5, so that it is possible to quickly switch between the individual plant areas L1 to L5.
As soon as the operator has selected one of these plant areas L1 to L5, the sublevel U is changed. In it, the operator is offered only those program pages P which are assigned to the selected system area L. Thus, the operator can only deal with the really important and necessary for him program pages P and does not have to "dig" through other, not necessary for him program pages P. Between the, a plant area L associated program pages P is a simple guide, preferably via navigation buttons 7. It is therefore provided that the process relevant program pages P of a selected plant area L or a selected task area F can be displayed sequentially only in a specific order, with particular preference Navigation keys 7 can be displayed in the sub-level U, wherein the program pages P can be displayed in succession or in reverse order by actuating the navigation keys 7 in accordance with the specific sequence. A change between the program pages P of a selected plant area L can also be effected by gestures (for example by "swiping" via the touch-sensitive screen 3). It can thus be easily changed within a system area L from one program page P in the next and back again. The operator sees on which program page P he is currently located and which program page P is opened before and after. The 8/25
•······································································································································································································································· and consecutive layers (see eg sublevel U1).
In principle, at least one parameter R or a trigger symbol A should be displayed on each program page P. Preferably, it is accordingly provided that at least one trigger symbol A can be displayed on each program page P which is relevant to the process, wherein a corresponding action of an injection molding machine element 5 can be triggered by actuating a control key 6 associated with the trigger symbol A. Additionally or alternatively, it may be provided that machine-specific parameters R can be displayed on the program pages P relevant for execution.
According to a further preferred embodiment, it can be provided that the hierarchical system architecture has a meta-level Z which can be selected independently of the displayed level Η, M or U. Thus, general functions such as printing, online help, recipe data management, etc., can be centrally provided, whereby they are always accessible and can be selected by the operator independently of the active program page P.
2, not the plant-specific menu N1, but rather the task-specific menu N2 is selected, an operator (eg maintenance personnel) has structured and clear task areas F1 to F5. Such a task F could, for example, be the maintenance of the machine or of a robot, wherein in each case only a few program pages P are already stored in the correct sequence and can be selected quickly. In contrast to the new invention, it was not easy to find the necessary program pages P and parameter R due to the countless generations of controllers and the most diverse machine manufacturers. In the new navigation concept, the operator selects the task F1 to F5 (in this case maintenance) that he has to do. The operator in the sublevel U (for example U4) is only offered those program pages P which are relevant for his chosen task area F. Within the task area F, a simple guidance is provided by the program pages P assigned to the task area F. The change of 9/25
··· ·· ·· ···· MM ······················································ A program page P to the next or previous one takes place by selecting buttons (navigation buttons 7) or by simple gestures or the like. The arrangement of the program pages P is carried out according to the logical workflow. Furthermore, the operator has the option of assigning further program pages P to a task or a task area F and adapting the arrangement of the program pages P to his workflows. For setting the navigation, it is also advantageous if at least in the levels M and U Hierarchietasten 8 can be displayed, wherein by pressing the
Hierarchie key 8 is a higher level H or M can be displayed.
FIG. 3 shows a possible start page of the operating program B, as it is initially presented on a screen 3 to an operator. According to this variant, the upper plant-specific level M1 is automatically preselected and all plant areas L are displayed in a kind of carousel. By "wiping" on the carousel shown on the screen 3, this is rotated, with the corresponding submenus U being displayed as icons in the underlying screen area for the system area L shown at the greatest or for the center in the center. If no work is to be performed on a specific system area L, it is also possible to switch to the upper, task-specific level M2 by pressing the button for the task-specific menu N2.
An example of a possible representation of the upper, task-specific level M2 is shown in FIG. In this level M2, an operator can select between the different task areas F, which in this case are arranged in a table. Of course, these task areas F can also be arranged in a carousel manner. In the lower part of Fig. 4, the control buttons 6 can be seen, which are arranged on the screen 3.
In FIG. 5, by way of example, a program page P (close / open mold) is shown as it is displayed on the screen 3 of the operating unit 1 of the injection molding machine 2 in the sublevel U of the hierarchical system architecture. On this 10/25
• ··· ···· # ···· ······· ·
«I ······ I • · t t ·« · · · · · · · ··· ·· I · · · · · · 10
Program page P various parameters R can be changed. Most importantly, by actuating the control buttons 6, not shown, according to the trigger symbols A displayed above, an action of an injection molding element 5 is triggered. The meta-level Z is also visible in the upper area.
The present invention thus shows a considerably improved operating unit 1 of an injection molding machine 2 compared to the state of the art, wherein the simple design of the levels (possibly main level H, upper level M and sub level U) and the logical assignment of the individual program pages P to the individual task areas F or system areas L an operator interface that is immediately understandable and easy to use is created.
Innsbruck, on November 23, 2012 11/25

权利要求:
Claims (14)
[1]
• · ·························································································································································································································· 1. Bedieneinheit (1) for an injection molding machine (2), with - a, in particular touch-sensitive, screen (3) for displaying an operating program (B), - a control or Control unit (4) for transmitting operating signals (S) to injection molding machine elements (5), wherein in the control or regulating unit (4) the operating program (B) is stored, and - at least one control button (6), upon actuation of the control or control unit (4) an action of a Spritzgießmaschinenelementes (5) triggers, characterized in that the operating program (B) has a hierarchical system architecture, with - at least one upper, plant-specific level (M1), wherein in the plant-specific center plane (M1) between different Plant areas (L1-L5) is selectable, and - an upper n, task-specific level (M2), wherein in the task-specific center plane (M2) between different task areas (F1-F5) is selectable, and - a plurality of sublevels (U1-U6), wherein in each selected sublevel (U1-U6) only the process-related program pages (P) assigned to the selected system area (L1-L5) or only the selected task area (F1-F5) can be displayed.
[2]
2. Operating unit according to claim 1, characterized by a main level (H1), in which between a plant-specific menu (N1) and a task-specific menu (N2) is selectable.
[3]
3. Operating unit according to claim 2, characterized in that the main plane (H1) and at least one of the upper levels (M1, M2) are simultaneously displayed.
[4]
4. Operating unit according to one of claims 1 to 3, characterized in that the upper, plant-specific level (M1) and the upper, 12/25 71627 22 / eh ··· ·· ·· ···· ···· « ···················································· ················ ·· · task-specific level (M2) in the hierarchical system architecture are of equal rank.
[5]
5. Operating unit according to one of claims 1 to 4, characterized in that on each process-relevant program page (P) at least one trigger symbol (A) can be displayed, wherein by actuation of the trigger icon (A) associated control button (6) a corresponding action of a Spritzgießmaschinenelements (5) is triggered.
[6]
6. Operating unit according to one of claims 1 to 5, characterized in that on the process-relevant program pages (P) machine-specific parameters (R) are displayed.
[7]
7. Operating unit according to one of claims 1 to 6, characterized in that the process-relevant program pages (P) of a selected system area (L) or a selected task area (F) can be displayed one after the other only in a specific order.
[8]
8. Operating unit according to claim 7, characterized in that in the sub-level (U) navigation keys (7) are displayed, wherein by pressing the navigation keys (7) the program pages (P) according to the particular order sequentially or in reverse order can be displayed.
[9]
9. Operating unit according to one of claims 1 to 8, characterized in that at least in the upper level (M) and the sublevel (U) Hierarchietasten (8) can be displayed, wherein by pressing the Hierarchietaste (8) a higher level (Η, M) can be displayed.
[10]
10. Operating unit according to one of claims 1 to 9, characterized in that a plant area (L1-L5) or a task area (F1-F5) new program pages (P) or program pages (P) other system areas (L1-L5) or other tasks (F1-F5) are assignable. 13/25 • ··········· • • 71627 22 / eh ••••••••••••••••••••••••••••••• ••••• ········································
[11]
11. Operating unit according to one of claims 1 to 10, characterized in that the hierarchical system architecture has a meta-level (Z), which is independent of the displayed level (Η, M, U) selectable.
[12]
12. Injection molding machine (2) with a plurality of activatable injection molding machine elements (5) and an operating unit (1) according to one of claims 1 to 11.
[13]
13. A method for operating an operating unit (1) of an injection molding machine (2), in particular according to claim 12, comprising - a, in particular touch-sensitive, screen (3) on which an operating program (B) with hierarchical system architecture is displayed, - or control unit (4) are transmitted from the control signals (S) to injection molding machine elements (5), wherein in the control or regulating unit (4) the operating program (B) is stored, and - at least one control button (6), when actuated by the Control or control unit (4) an action of a Spritzgießmaschinenelementes (5) is triggered, characterized by the steps: - displaying an upper, plant-specific level (M1) or an upper, task-specific level (M2) depending on a previously selected menu (N1, N2) or a preset selection, - selecting a plant area (L) from various displayed plant areas (L1-L5) or a task area ( F) from different displayed task areas (F1-F5), - displaying a sub-level (U1-U6) depending on the selected attachment area (L1-L5) or the selected task area (F1-F5), wherein in each selected sub-level (U1-U6 ) only program-related program pages (P-L) assigned to the selected system area (L1-L5) or only the selected task area (F1-F5) are displayed.
[14]
14. The method according to claim 13, characterized by at least one of the further steps: 14/25 71627 22 / eh • Λ ··· · ······ > Selecting a trigger symbol (A) displayed on the program page (P), whereby a corresponding action of an injection molding machine element (5) is triggered, or selecting or changing a machine-specific parameter (R) displayed on the program page (P) ) or navigation via navigation keys (7) to a next or previous program page (P) of the selected plant area (L1-L5) or the selected task area (F1-F5) or navigation via hierarchy keys (8) to another level (Η, M , U) of the operating program (B) or selecting a meta-level (Z) of the operating program (B). Innsbruck, on November 23, 2012 15/25

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CN102398355B|2011-11-18|2014-08-27|深圳市宝捷信科技有限公司|Control method and control device of custom command as well as injection molding machine system|JP6691789B2|2016-02-22|2020-05-13|東洋機械金属株式会社|Display operation device and molding machine provided in the molding machine|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA1239/2012A|AT513665B1|2012-11-26|2012-11-26|Operating unit for an injection molding machine|ATA1239/2012A| AT513665B1|2012-11-26|2012-11-26|Operating unit for an injection molding machine|

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EP13005420.8A| EP2735425B1|2012-11-26|2013-11-19|Operating unit for an injection moulding machine|

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US14/088,819| US9937650B2|2012-11-26|2013-11-25|Operating unit for an injection molding machine|

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CN201310757505.8A| CN103921416B|2012-11-26|2013-11-26|For the operating unit of injection lding) machine|

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KR1020130144918A| KR101785139B1|2012-11-26|2013-11-26|Operating unit for an injection molding machine|