WO2000008606A1

WO2000008606A1 - Control device

Info

Publication number: WO2000008606A1
Application number: PCT/AT1999/000193
Authority: WO
Inventors: Peter Neumann; Otto Urbanek
Original assignee: Engel Maschinenbau Gesellschaft Mbh
Priority date: 1998-07-31
Filing date: 1999-07-30
Publication date: 2000-02-17
Also published as: DE29923264U1

Abstract

The invention relates to an injection molding machine comprising a control device with a touch screen and at least one pen-like pointing device for initiating control operations by touching the touch screen. According to the invention, an identification code is stored in or on the pointing device, and a receiving device which receives this identification code in a contactless manner is assigned to the touch screen. The invention can alternatively be used for biometrically detecting personal characteristics.

Description

operating device

The invention relates to an injection molding machine with an operating device which is equipped with a contact screen and at least one pen-like pointing device for triggering operating operations by touching the contact screen. The invention further relates to an injection molding machine with an operating device equipped with a screen.

Contact screens (touch screens) are already known and are used in addition and instead of a keyboard for operating devices for controls of injection molding machines. A touch screen has a transparent matrix film applied to the display, it enables the position to be determined at the point of contact and forwards the coordinates of the point to the computer of the operating device. It can replace the manual movement of a cursor and thus a mouse or a track ball or arrow keys on a keyboard. A precise actuation of such a touch screen is possible using a pen-like pointing device.

With such operating devices, it is common for several people to work on the same operating device or on the same touch screen, the individual operators having different authorizations.

In order to avoid entering passwords and also to be able to omit key switches or magnetic card readers, it is already known to assign the operator a wristband provided with a microprocessor, which contains an identification code and thus enables or blocks authorizations for access to a data processing system (EP- A1 0 295 985).

According to a first aspect, the basic idea of the invention is to integrate the identification code into the pointing device, with which the latter performs a dual function. On the one hand, it serves to select the desired position on the touch screen and, on the other hand, to wirelessly (contactlessly) send the identification code of the owner (operator) stored in or on the pointing device to a receiving device which is assigned to the contact screen, so that an additional wristband can be used be avoided. There is also the possibility the authorization essentially only for the duration of the prompt

Value and to lower the authorization level to a set minimum after completing this entry. This can be achieved, for example, by checking and releasing by reading the identification code only below a minimum distance from the screen, for example 10 cm. Another type of triggering for transmitting the identification code is, for example, a mechanical contact, e.g. B. a sprung

Stylus tip, which when pressed in a microswitch and thus the transmission of the

Triggers identification codes.

An alternative of the invention is to provide a biometric device for recording a body's own property of a user, a storage device for storing authorized codes and a comparison device being provided. The comparison device compares the signals emitted by the biometric device with the stored codes and, depending on the comparison result, releases or blocks certain operating operations of the operating device of the injection molding machine.

Particularly suitable as biometric devices are those for recording the hand geometry, the retina structure, the shape of the face, the fingerprint, the voice and / or the signature of the user.

Biometric systems of this type are already known per se and are used, for example, for access control in buildings or for time recording. They are distinguished from systems with magnetic cards or the like by the fact that no loss is possible because physiological or behavioral characteristics of the users are tested. In addition, the code is almost immutable, which allows a high level of security against counterfeiting. The operating costs are also low due to the low administrative costs. Biometric systems are described, for example, in the magazine PC Magazine from February 23, 1999 on page 160 ff and in the magazine c "t 1988, issue 8, page 100 ff.

Surprisingly, these systems, mainly developed for the banking sector, can be used in the harsh environment of injection molding machines. Further advantages and details of the invention are explained in more detail with reference to the following figures.

1 shows an injection molding machine according to the invention,

FIG. 2 schematically shows an operating device according to the invention, FIG. 3 shows a first exemplary embodiment of a pointing device of such an operating device, FIG. 4 shows a further exemplary embodiment of such a pointing device, and FIG. 5 shows an exemplary embodiment with a biometric detection.

The injection molding machine 15 shown in FIG. 1 has an operating device 1, generally designated 1, which comprises a screen 16 and a keyboard 17.

According to a first aspect of the invention, access control to the operating device 1 now takes place via a special pen-type pointing device (FIGS. 2 to 4) or via a biometric recording of person-specific data of the user.

The control device 1 of the control system shown in FIG. 2 is equipped with a touch screen 2. The use of this technology requires the execution of input operations that act directly on the screen. For this input, the operator uses a pen-like, personal pointing device 3 which is equipped with a microchip 4 (see FIG. 2). This microchip 4 is able to send a unique identification code.

A transmitting and receiving device 5 is installed on the operating device 1 of the control, which communicates wirelessly with the microchip 4 in the pointing device 3.

If the operator now moves a pointing device 3 to the operating device 1 of the control, the microchip 4 in the pointing device comes into the transmission range of the transmitting and receiving device 5. The microchip 4 asks the microchip 4 of the pointing device 3 for its unique identification code which it receives on receipt by the computer forwards the control device. A memory device 6 with different authorized codes is provided in the computer. These codes are compared in a comparison device 7 with the received identification code and then assigned to a pre-stored authorization profile 8, which determines which operator operations the recognized user is authorized to do. The aforementioned units are shown very schematically in FIG. 2. Of course, these units can essentially be implemented in software in the computer. In principle, however, a special hardware solution upstream of the computer is also conceivable and possible.

All operator operations subsequently carried out by the operator identified in this way are permitted or blocked in accordance with the authorization information stored in his authorization profile. In addition, all operating activities - linked to the identification data of the operator - are also logged.

If there is no pointing device 3 or microchip 4 in the transmitting area of the transmitting and receiving station 5, no operator can be identified. In this case, only operations that correspond to a certain defined minimum authorization level are possible at the control station.

The transmitting and receiving station 5 can consist of one or more transmitters or receivers. The transmitter station builds up an electromagnetic transmitter field in the area directly in front of the screen (touch screen). The range of this transmission field extends to about 10 c. in front of the screen 2 of the operating device.

If a microchip 4 is brought into the transmitting area of the transmitting station in a pointing device 3, this is stimulated to send its unique identification code. These transmission signals are received by the receiving station of the operating device and forwarded to the computer of the operating station in cyclical time intervals. Values of 200 msec to 1 sec are conceivable for these time periods. The microchip 4 in the pointing device 3 can exist in several versions. In a

Variant is with its own power supply - e.g. B. a battery 9 - equipped (see Fig. 4). In another variant (Fig. 3) it does not have its own

Power supply, but obtains its transmission energy from the field set up by the transmission station 5 of the operating computer.

The embodiment shown in Fig. 3 is very simple. It has a stylus shaft 11 and a stylus tip 12, which are mechanically connected to one another, for example by screwing or plugging, with the microchip 4 in between. It is of course also possible to glue the two parts 11 and 12 together or to connect them by plastic welding.

In the embodiment shown in FIG. 4, a spring-loaded stylus tip 12 is provided, which is movable relative to the stylus shaft 11 via a spring 13. The microchip 4 is designed such that it transmits its identification code when the stylus tip 12 is pressed in and the switch 14 is closed. On the one hand, this saves energy because the microchip does not have to transmit continuously, as a result of which the battery 9 lasts longer. On the other hand, this configuration makes it possible to actually send the identification code during each individual operating operation, namely when the stylus tip 12 is pressed in by touching the contact screen 2.

In the exemplary embodiment shown in FIG. 5, biometric identification takes place, specifically via the user's fingerprint. For this purpose, the operating device either has a biometric device 19 for capturing the fingerprint of the finger 20, either installed or connected via a connecting cable 18. As is known per se, this device is constructed and has a sealing source 1, an optical transmission system 22 and a CCD image sensor 23, the signal of which reaches the interface 25 via an electronic circuit 24. The operating device 1 furthermore has a storage device 26 in which fingerprint data are stored. These stored data are then compared by the comparison device 27 with the data currently being recorded, and thus the access for certain operating operations is enabled or blocked, the duration of the release being pre-settable as desired. In addition to capturing the fingerprint, other biometric features such as the hand geometry, the retina structure, the shape of the face, but also the voice or the signature can be captured and used to release operating operations for certain users.

Claims

Patent claims:

1. Injection molding machine with an operating device which is equipped with a contact screen and at least one pen-type pointing device for triggering operating operations by touching the contact screen, characterized in that an identification code is stored in or on the pointing device (3) and that the contact screen (2) a receiving device (5) receiving this identification code without contact is assigned.

2. Injection molding machine according to claim 1, characterized in that the receiving device is followed by a storage device (6) for storing authorized codes and a comparison device (7) which compares the identification code received by the pointing device (3) with the stored codes and as a function of The comparison result enables or disables certain operator operations.

3. Injection molding machine according to claim 1 or claim 2, characterized in that the identification code in an in the pointing device (3) arranged, electronic memory, preferably stored in a microchip.

4. Injection molding machine according to one of claims 1 to 3, characterized in that the pointing device has a passive transponder (4).

5. Injection molding machine according to one of claims 1 to 3, characterized in that the pointing device (3) has an active transponder with a transceiver and its own power supply (9).

6. Injection molding machine according to one of claims 1 to 5, characterized in that a timing circuit is provided which causes the verification of the identification code at predefinable time intervals, preferably every 200 msec to 1 sec.

7. Injection molding machine according to one of claims 1 to 6, characterized in that it is designed such that the verification of the identification code when the pointing device (3) approaches the contact screen (3) at a predetermined distance, preferably less than about 10 cm.

8. Injection molding machine according to one of claims 1 to 6, characterized in that the identification code is checked when the pointing device (3) contacts the contact screen (2).

9. Injection molding machine according to claim 8, characterized in that the pointing device (3) has a spring-loaded stylus tip provided with a switch (14).

10. Injection molding machine with an operating device (1) equipped with a screen (16), characterized by a biometric device (19) for detecting a body characteristic of a user, a storage device

(26) for storing authorized codes and a comparison device (27), which compares the signal emitted by the biometric device with the stored codes and, depending on the comparison result, enables or blocks certain operating operations. (Fig. 5).

11. Injection molding machine according to claim 10, characterized in that the biometric device is a device for detecting the hand geometry, the retinal structure, the shape of the face, the carrier print of the voice and / or the signature of the user.