DE10239759A1 - Installation and operating unit for an injection molding machine comprises one or more machine controls, data carriers and programmes, at least one server and operating terminals - Google Patents

Abstract

An arrangement for installing and operating a multi-component or multi-colored injection molding machine which has a closure unit (1) and a number of injection units (4, 6) comprises one or more machine controls, data carriers and programmes. The latter are used to install and operate the machine and its components. An arrangement for installing and operating a multi-component or multi-colored injection molding machine which has a closure unit (1) and a number of injection units (4, 6) comprises one or more machine controls, data carriers and programmes. The latter are used to install and operate the machine and its components. A number of points on the machine are used as operating terminals (5, 7) and the arrangement has at least one server (8), to which the terminals are connected via data links (11). A single server computer holds all the programmes and each terminal is connected to all server programmes.

Description

The invention relates to a device for setting up and operating a multi-component injection molding machine, the one clamping unit and has several injection units, with one or more Machine controls, with one or more data carriers as well with one or more programs for processing the existing ones on the data carriers Data for setting up and operating the multi-component injection molding machine and their parts. In the present case, multi-component injection molding machines so-called multi-color injection molding machines can also be understood.

Usually has each injection molding machine has one Machine control and an operator terminal for entering data or commands and for reading out data. With multi-component or multi-color injection molding machines it is known to insert each of the different injection units Operating terminal to provide that for the setup and operation of this straight injection unit designed is. As a result, the operator must set up the injection molding machine switch back and forth between the individual operator terminals in order to the injection molding machine as a whole for to set up the operation. This is disadvantageous in that here a considerable one Loss of time arises.

From the EP 0 916 466 A1 a standard injection molding machine is known which has a PLC with a microprocessor for program-controlled control of the actuators of the injection molding machine and an operating unit integrated in the injection molding machine, which is connected to the PLC for data transmission via a data line. The operating unit has its own microprocessor, which is different from the microprocessor of the PLC, furthermore a display for displaying the actual values of the machine state received by the PLC and an input device for entering setpoint values of the injection molding machine to be transmitted to the PLC. A LAN network architecture is proposed for the internal data transmission between the PLC and the operation of the injection molding machine. For effective communication of the interconnected microprocessors, a client-server architecture is proposed in particular, with the PLC forming a server and the operating unit forming a client.

The invention has for its object a Device for setting up and operating multi-component injection molding machines specify with which the ease of use compared to the prior art and which allows for the control of all parts of this multi-component injection molding machine to have only a minimum of computing power available.

This task is solved by a device with the features of claim 1. Advantageous Further developments and refinements can be found in the subclaims.

Because in several places the multi-component injection molding machine Operator terminals as clients and also a central server are provided, to which the operator terminals are connected via data lines are not necessarily for everyone Machine control the full computing power provided become. Rather, the computing power of a server can be based on the respective Clients are divided according to their requirements. In addition, at same computing power, several operator terminals are provided for what the flexibility of the operator increases. Furthermore, a logical breakdown machine control in task-specific service providers (server programs) be made.

The invention is intended to be based on a two-component or two-color injection molding machine and with reference to FIG 1 and 2 are explained in more detail.

Show it:

1 schematic representation of a two-component or two-color injection molding machine

2 Client-server architecture According to a two-component or two-color injection molding machine 1 a clamping unit 1 with tool halves 2a and 2 B on platen 3a and 3b on, as well as a first injection unit 4 with a first operator terminal 5 and a second injection unit 6 with a second operator terminal 7 , The clamping unit and the injection units are supported in a known manner on a machine bed - not shown here. Furthermore are a server computer 8th , a host computer 9 and a diagnostic PC 10 intended. The operator terminals 5 and 7 as well as the host computer 9 and the diagnostic PC 10 represent clients C1 to C4, which are connected via data lines 11 to the server computer 8th are connected. The server computer 8th has several server programs S1 to S5, S1 for the control of the clamping unit 1 , S2 for the control of the first injection unit 4 and S3 for the control of the second injection unit 6 are provided while S4 acquires, evaluates and, if necessary, stores data of the injection molding process and S5 is a program for the sequence control of clients C1 to C4.

The 2 the client-server architecture can be seen. Each of the operator terminals 5 and 7 is over one of the external data lines 11 to the server computer 8th connected and is located within this server computer 8th in connection with all server programs S1 to S5 via further data lines. The master computer 9 is only in connection with the server programs S4 and S5, the diagnostic PC only with the server program S5. The server programs S1 to S5 do not all have to be on the same physical server computer 8th installed, although this is the preferred embodiment.

In a further embodiment (not shown here), instead of or in addition to the operator terminals 5 and 7 Separate and machine-detached clients for remote maintenance are provided on the injection units, for example in a central operating center on site or in a call center at any location.

As a protocol for exchanging data and programs between client and server can use known protocols speak to be used to be used speak.

When setting up and operating the injection molding machine, the operator can at the operator terminal 5 control all parts of the injection molding machine. For example, after starting up the first injection unit 4 with the first color the start of the second injection unit 6 with the second color from the same operator terminal 5 be started from. In the same way, the operator can at the operator terminal 7 starting the first injection unit 4 with the first color and starting the second injection unit 6 start with the second color. In both cases, the locking device can be operated simultaneously on the respective control unit. Interventions in the injection molding process, such as setting the closing force, injection pressure, injection time, injection volume and much more, can also be carried out from any operator terminal. As a result, the operator can select the most convenient position for setting up and operating the multi-component injection molding machine.

Claims (7)

Device for setting up and operating a multi-component or multi-color injection molding machine, which has a clamping unit and several injection units, with one or more machine controls, with one or more data carriers and with one or more programs for processing the data on the data carriers for setting up and operating the injection molding machine and their parts, characterized in that operating terminals are provided as clients at several points of the injection molding machine and that at least one server is provided to which the operating terminals are connected via data lines. Device according to claim 1, characterized in that a or several host computers are provided as clients. Device according to claim 1 or 2, characterized in that that a single server computer is provided on which all server programs available. Device according to claim 1 or 2, characterized in that that for different server programs different server computers are provided. Device according to one of claims 1 to 4, characterized in that every operator terminal is connected to all server programs stands. Device according to one of claims 1 to 5, characterized in that that the machine controls have microprocessors PLC are equipped. Device according to one of claims 1 to 6, characterized in that that the operator terminals over Have facilities for displaying and entering data.