AT518614A1 - forming machine - Google Patents

Abstract

Forming machine (11), with a machine control (16) and a plurality of assembly stations for machine components, wherein in a memory of the machine control (16) a forming machine (11) or the peripheral device including all mounted machine components representing total data set (21) is stored, wherein the machine controller (16) is adapted, upon assembly or disassembly of a machine component to or from a mounting station, to update the overall data record (21) by adding or deleting a component record (32, 33, 34 ) to / from the overall data record (21).

Description

The present invention relates to a forming machine having the features of the preamble of claim 1.

Generic shaping machines, in particular injection molding machines, have a plurality of interchangeable machine components, such as. As injection tool, plasticizing, plasticizing, backflow, turntable, Flydraulikaggregate etc. Similarly, peripheral devices, in particular Flandling robot, available in different versions and are operated together with different machines. Also, a peripheral device for a molding machine, such. As a flanging robot, is to be regarded as a machine component in the sense of the present disclosure.

In the prior art, a total data set representing the forming machine, including all installed machine components, is stored in a memory of the machine controller. If it comes to an assembly or disassembly of a removable machine component, was previously adapted locally to the forming of the entire data set manually to the current mounting situation, which after replacing several machine components results in a variety of divergent total records, each total data set is only correct for a specific mounting situation. This entails the risk that an operator loses the overview and the machine control system sends in a wrong overall data record which does not correspond to the current mounting situation. Flierdurch it can lead to incorrect settings in the operation of the molding machine and even the destruction of machine components.

The object of the invention is to provide a generic shaping machine in which the problems discussed above do not occur.

This object is achieved by a shaping machine with the features of claim 1. Advantageous embodiments of the invention are defined in the dependent claims.

Because the machine controller is adapted to update the entire data set by adding or deleting a component data set associated with the assembled or disassembled machine component to or from the entire data set when assembling or disassembling a machine component to or from a mounting location, it can not Misadjustment by the operator. Also, a separate overall data record is not required for every assembly situation, but the overall data record consists of a machine data record and the component data sets of those machine components that are currently mounted. Possibly. The total data set may contain further data, as will be discussed below.

The component records can come from different sources:

It can, for. B. be provided that the machine components are provided with a disk on which the associated component record is stored.

It can, for. For example, it may be provided that the component data sets are stored in a separate database from the machine components, preferably a cloud, and the machine components are provided with an identification by means of which the machine control can identify the relevant component data set and load it from the separate database.

It is preferably provided that the machine control is designed to recognize dependencies between the machine components from the overall data record and to issue a message if a machine component requires settings that can not be met by another machine component. It could be z. For example, an alarm may be issued when a mold requires injection pressures in excess of 2900 bar, but these pressures would exceed the maximum plasticizer cylinder pressure of 2400 bar.

It is preferably provided that the machine control is designed to calculate setting data for the entire data record from the individual component data records.

For loading the component data sets into the central machine control, it is advantageous if the machine components are networked with one another (eg via EtherNet, EtherCAT, UPC-UA, serial interface). This also has the advantage that, in addition to those data which describe the interchangeable machine components, data on the actual state of the machine component (eg maintenance information) can be stored on the machine component. For example, one could store the operating hours of the plasticizing cylinder and monitor it based on the maximum number of hours specified by the manufacturer. The monitoring of this information could be done directly in the central machine control or in a separate from the machine components database, such as a cloud done. Thus, the operator of the forming machine can be notified of maintenance intervals of the forming machine or individual machine components. Furthermore, machine-specific updates can be carried out at a central location. In the prior art, it is necessary to evaluate all affected forming machines, to create a variety of updates, distribute them in conjunction with a service message and install them on the respective forming machines.

The component data sets or the identifications of the interchangeable machine components may be stored on memory modules (eg RFID chip).

Embodiments of the invention will be discussed with reference to the figures.

Fig. 1 shows a molding machine 11 formed as an injection molding machine with a machine control 16 and a plurality of interchangeable machine components arranged in known units of the injection molding machine. By way of example: "an injection unit 12 (interchangeable machine components are eg

Plasticizing cylinder, plasticizing screw, reverse flow blocking device) "one clamping unit 13 (interchangeable machine components are eg

Molding tools, turntable, handling robot 14) - a feeding device 1 for plastic granules

Fig. 2 shows the situation according to the prior art, in which, depending on the mounting situation, a plurality 23 of divergent total data sets 21 results, each total data set 21 is correct only for a specific mounting situation. In a read-in step 22, the total data set 21 selected by a user is read into the machine control 16. If the user has selected a wrong total record 21, this will generally have adverse consequences.

Fig. 3 shows the situation which is present in a shaping machine 11 according to the invention. There is only one single total data record 21, which is composed of at least one machine data record 35 and different component data records 32, 33, 34. This total data set 21 is automatically generated by the machine control 16 in step 31. The machine controller 16 may, in step 31, calculate from the loaded component datasets 32, 33, 34 data on the assembled machine components and add them to the overall dataset 21.

4 the possibility of local networking of data exchangeable machine components by means of a cross-linking means 41st

As illustrated in FIG. 5, it may be sufficient if the individual machine components do not have the component data sets 32, 33, 34 but are provided with an identification which is recognizable by the machine control. The machine controller 16 may load the component datasets 32, 33, 34 that are correct in relation to the current mounting situation into a database separate from the machine components, for example a cloud.

Claims (5)

claims: A forming machine (11) having a machine controller (16) and a plurality of machine component mounting stations, wherein a total data set (21) representing the forming machine (11) and the peripheral including all assembled machine components is stored in a memory of the machine controller (16) characterized in that the machine control (16) is adapted to, upon assembly or disassembly of a machine component to or from a mounting location, updating the entire data record (21) by adding or deleting a component data record associated with the assembled or disassembled machine component ( 32, 33, 34) to or from the overall data set (21). 2. A molding machine according to claim 1, wherein the machine components are provided with a data carrier on which the associated component data set (32, 33, 34) is stored. A forming machine according to claim 1, wherein the component data sets (32, 33, 34) are stored in a database separate from the machine components, preferably a cloud, and the machine components are provided with an identification by which the machine controller (16) displays the associated component data set (32, 33, 34) and load from the separate database. The forming machine of at least one of the preceding claims, wherein the machine controller (16) is adapted to detect dependencies between the machine components from the overall data set (21) and to issue a message if a machine component requires settings that are not met by another machine component can be. 5. A forming machine according to at least one of the preceding claims, wherein the machine controller (16) is adapted to calculate from the individual component data sets (32, 33, 34) setting data for the entire data set (21).