EP4241143A1

EP4241143A1 - Mobile communications device and machine tool controllable by means of the mobile communications device

Info

Publication number: EP4241143A1
Application number: EP21807026.6A
Authority: EP
Inventors: Magnus Deiss; Manuel Kiefer
Original assignee: Trumpf Werkzeugmaschinen SE and Co KG
Current assignee: Trumpf Werkzeugmaschinen SE and Co KG
Priority date: 2020-11-06
Filing date: 2021-11-05
Publication date: 2023-09-13
Also published as: DE102020213966A1; CN116848832A; WO2022096620A1; US20230259101A1

Abstract

The invention relates in summary to a machine tool arrangement (10) having a machine tool (12) and a mobile communications device (26), wherein an application (32) for at least partially controlling the machine tool (12) is installed on the mobile communications device (26). The machine tool arrangement (10) has a sensor device (18), measured data of which can be displayed in the application (32). The sensor device (18) can be designed in the form of at least one camera (20a-c), images of which can be displayed in the application (32). A control arrangement (16) of the machine tool arrangement (10) can have a chatbot (36) for communication of the machine tool (12) with a user of the application (32). The application (32) is further designed for communication with another application (40) on another mobile communications device (38) to enable the user to coordinate with another user. The control arrangement (16) can be designed to inform the user of the application (32) only in exceptional cases. An exceptional case can be determined from data of the machine tool (12) and/or from data of the sensor device (18) analysed by a filter (34).

Description

Mobile communication device and machine tool that can be controlled with the mobile communication device

Background of the Invention

The invention relates to a machine tool arrangement with a machine tool and a mobile communication device for controlling the machine tool.

It is generally known to equip machine tools with an SMS transmitter in order to send error messages from the machine tool to a mobile communication device of a user of the machine tool. However, a completely autonomous operation of the known machine tools is not possible, but an assessment of the state of the machine tool and an interaction with the machine tool on site is always necessary. As a result, it is currently difficult to achieve high machine tool utilization in unmanned shifts. US 2018/159979 A1 discloses a remote service system that a user can access on a production machine. The production machine is checked on site by the user.

It has become known from WO 2019/197443 A1 to provide an adapter plug that can record the power consumption of a consumer and transmit it to a user. The consumer can be controlled via the adapter plug.

US 2018/129181 A1 discloses a chatbot for communicating with a production machine and for controlling the production machine.

Methods for man-machine interaction have become known from EP 3 528 242 A1. In particular, EP 3 528 242 A1 discloses a dialogue system between a human and a machine.

In contrast, the object of the invention is to provide a machine tool arrangement with a machine tool that can be controlled significantly better by remote maintenance. It is also the object of the invention to provide a mobile communication device for such a machine tool arrangement.

This object is achieved according to the invention by a machine tool arrangement according to patent claim 1 and a mobile communication device according to patent claim 13. The dependent claims reflect preferred developments.

The object is thus achieved by a machine tool arrangement with a machine tool, a sensor device for monitoring the machine tool, a control arrangement for controlling the machine tool and a mobile communication device, the control arrangement being connectable to the mobile communication device via a network connection. The mobile communication device has an application (“Application”; "App"), with which data from the sensor device can be displayed on the mobile communication device. Furthermore, the control arrangement is designed to control the machine tool using data received from the mobile communication device. The application is designed to use the mobile communication device with at least one further application of a further mobile communication device of the machine tool arrangement to exchange data, in particular in the form of a chat, with the data of the sensor device also being able to be displayed in the further application via the network connection to control data The application and the further application can be designed in the same way.

According to the invention, it is therefore provided that a machine tool can be at least partially controlled with a mobile communication device and/or another mobile communication device, with the users being able to assess the state of the machine tool on their respective mobile communication device using the data provided by the sensor device. Several users can agree on their approach. As a result, a high utilization of the machine tool can be achieved even in unmanned shifts.

The machine tool is preferably designed in the form of a machine tool for sheet metal processing, in particular in the form of a laser cutting machine.

In a particularly preferred embodiment of the invention, the sensor device has at least one camera, preferably a plurality of cameras. This allows users to quickly get a meaningful impression of the condition of the machine tool.

The control arrangement is structurally particularly simple if it is a computer, in particular in the form of an industrial computer, preferably in Form of a single-board computer, in particular in the form of an Industrial Raspberry Pi.

The control arrangement can have a router, in particular in the form of an LTE router, WLAN and/or a network cable for the network connection.

The mobile communication devices can each be designed in the form of a smartphone, laptop, notebook or tablet computer in order to make it easier to use and to increase the availability of the mobile communication devices for the users.

The mobile communication devices can be designed to transmit their location to the control arrangement, for example using GPS, mobile radio, WLAN and/or iGPS. The control arrangement can be designed to only contact the mobile communication devices that are in the vicinity of the machine tool in a first step. The control arrangement can also be designed to contact further mobile communication devices only after a predetermined dead time.

The control arrangement can have a chatbot, i.e. a text-based dialog system, in order to facilitate the communication of the users with the control arrangement.

The chatbot can be designed to set up a permanent bidirectional communication exchange. In contrast to e-mail or SMS solutions (“fire and forget”), this enables receipt control on both sides (control arrangement and applications). More preferably, the chatbot has a watchdog to ensure machine availability and functionality of the entire communication path from end to end User commands that go nowhere can be reported back, for example with the message "Command could not be executed". The watchdog can be designed to deliver ad hoc messages, for example via push notifications, and to indicate a communication breakdown or machine standstill. User-friendliness is further increased if the application(s) is/are designed to display a rating, with the rating reflecting the condition of the machine tool or a recommendation for further action.

The users can get a more precise picture of the state of the machine tool if the control arrangement is designed to transmit data from the machine tool to the application(s) via the network connection. This data from the machine tool can include sensor data and/or control data from the machine tool.

The control arrangement particularly preferably has a filter in order to recognize specific configurations of the sensor device and to transmit these to the application(s) of the communication device. In this way, faulty states of the machine tool can be detected by the filter, in particular automatically, and the data measured by the sensor device can then be transmitted to the application(s). Alternatively or additionally, the control arrangement can be set up to transmit the data from the sensor device to the application(s) when the control arrangement uses other sensor data and/or control data to detect a faulty state of the machine tool, in particular that the machine tool is at a standstill.

The control arrangement can have a storage unit for storing the data from the sensor device and/or the data from the machine tool (for example sensor data). The control arrangement can also have an evaluation unit for evaluating the stored data in order to transmit a recommendation for further action based on the evaluation to the application(s). In this case, the control arrangement can already make a suggestion for the user's decision. The evaluation unit can have artificial intelligence, in particular in the form of a neural network, in order to create a precise assessment. The evaluation unit can be designed to improve itself further by means of machine learning. The storage unit and/or the evaluation unit can be configured on a local server or PC and/or cloud-based in order to be able to access the experiences of multiple users, so that a significantly more precise evaluation can be created.

The object according to the invention is also achieved by the mobile communication device, which has the application, of the machine tool arrangement described here.

Further advantages of the invention result from the description and the drawing. Likewise, the features mentioned above and those detailed below can be used according to the invention individually or collectively in any combination. The embodiments shown and described are not to be understood as an exhaustive list, but rather have an exemplary character for the description of the invention.

Detailed description of the invention and drawings

1 shows a schematic overview of a machine tool arrangement with a control arrangement and a mobile communication device.

FIG. 2 shows a detailed overview of the data flow of the machine tool arrangement according to FIG.

3a shows a first output of an application of the mobile communication device.

Figure 3b shows a second output of the mobile communication device application.

Figure 3c shows a third output of the mobile communication device application.

Figure 3d shows a fourth edition of the mobile communication device application. Fig. 1 shows a machine tool arrangement 10 with a machine tool 12, here in the form of a machine tool for sheet metal processing. The machine tool 12 has a particularly automated, preferably fully automated, laser cutting tool 14, shown here symbolically in the form of a robot. The machine tool arrangement has a control arrangement 16 and a sensor device 18 .

The sensor device 18 preferably has at least one camera 20a, 20b, 20c, in particular a plurality of cameras 20a-c. The camera(s) 20a-c is/are designed to record moving images and/or still images. As a result, a machine status can be detected. For example, the camera(s) can detect that a sheet metal part (not shown) has jammed in the laser cutting tool 14 and is blocking the laser cutting tool 14 . The camera(s) 20a-c can thus be used to monitor whether the laser cutting tool 14 has a defect.

The data from the sensor device 18 are transmitted to the control arrangement 16 . The control arrangement 16 can be designed in the form of an industrial Raspberry Pi. The control arrangement 16 is in data exchange 22 with the laser cutting tool 14. The data exchange 22 preferably takes place via a platform-independent architecture, in particular via Open Platform Communications Unified Architecture (OPC UA). As an alternative or in addition to this, the control arrangement 16 can receive its power supply 24 , in particular 24V, from the laser cutting tool 14 .

The control arrangement 16 is designed for data exchange with a mobile communication device 26, in particular in the form of a smartphone. For this purpose, the control arrangement 16 is connected to a network connection 28 . In the present case, the network connection 28 has a router, in particular in the form of an LTE router.

The control arrangement 16 can be connected to a storage and/or evaluation unit 30 . The storage and/or evaluation unit 30 is in particular Trained in the cloud. The storage and/or evaluation unit 30 preferably enables the data from the control arrangement 16 to be accumulated by a plurality of users in order to enable machine learning on the basis of a large amount of data.

The mobile communication unit 26 has an application 32, i.e. an app. The application 32 is able to control at least part of the machine tool 12 . Furthermore, the application 32 is able to receive and, in particular, to display the data from the sensor device 18 . In particular, the application 32 is designed to display images from the camera(s) 20a-c and to stop the machine tool 12 automatically and/or by means of a user input. As an alternative or in addition to this, the application 32 is designed to start or continue the operation of the machine tool 12 in an automated manner and/or by means of a user input.

The control arrangement 16 can have a filter 34 in order to identify states of the machine tool 12 in order to then transmit the data from the sensor device 18 to the application 32 . For example, the filter 34 can be designed to detect an unexpected state, in particular a defect, of the machine tool 12 and then to transmit the data from the camera(s) 20a-c to the application 32.

The control arrangement 16 preferably has a chatbot 36 . A chatbot 36 is understood to be a text-based dialog system that allows chatting with the mobile communication device 26 . In addition to this, the chatbot 36 can be designed to exchange data with a further mobile communication device 38 or with a further application 40 of the further mobile communication device 38 .

The control arrangement 16 is designed for data exchange with the further mobile communication device 38 . For this purpose, the control arrangement 16 is connected to the network connection 28 . This allows multiple users with their respective mobile communication device 26, 38 discuss the state of the machine tool 12. The further communication device 38 is preferably designed in the form of a smartphone.

Fig. 2 shows an embodiment of a circuit diagram of the machine tool arrangement 10 described in Fig. 1.

FIG. 3a shows an output of the application 32. From FIG. 3a it can be seen that the machine tool 12 (see FIG. 1) has stopped operating. An image of the sensor device 18 (see FIG. 1) is transmitted to the user of the application 32 so that he can get an impression of the state of the machine tool 12 himself. The user is offered the option of restarting the machine tool 12 (“Restart”) or stopping it completely (“Stop”).

FIG. 3b shows the mobile communication device 26 with a further exemplary output of the application 32. According to FIG. 3b, the application 32 outputs a rating 42 with regard to the state of the machine tool 12. The rating 42 shows on a scale, here in the form of a rating, whether the machine tool 12 is in good or bad condition.

FIG. 3c shows the mobile communication device 26 with a further exemplary output of the application 32. It can be seen from FIG. 3c that geometric positions 44 can be displayed in the output. The geometric positions 44 can be displayed in the form of arrows, frames and the like.

3d shows another output of the application 32 with a chat history. The machine data before an interaction, data from the sensor device 18 (see Fig. 1), in particular in the form of camera images, the information reported back and the reaction of the machine tool 12 (see Fig. 1) after the interaction are stored and can be used as labels to set up a automated detection of the situations can be used. This makes it possible, in many cases using the machine data and data from the sensor device 18 (see Fig. 1) to give automated feedback to the machine tool 12 and only to request a manual evaluation in special situations. In the group of activated users, advice can be given before the reaction or an on-site deployment can be decided.

Taking all the figures of the drawing together, the invention relates in summary to a machine tool arrangement 10 with a machine tool 12 and a mobile communication device 26, with an application 32 for at least partial control of the machine tool 12 being installed on the mobile communication device 26. The machine tool arrangement 10 has a sensor device 18 whose measured data can be displayed in the application 32 . The sensor device 18 can be embodied in the form of at least one camera 20a-c, the images of which can be displayed in the application 32. A control arrangement 16 of the machine tool arrangement 10 can have a chatbot 36 for communication between the machine tool 12 and a user of the application 32 . The application 32 is also designed to communicate with a further application 40 on a further mobile communication device 38 in order to enable the user to coordinate with another user. The control arrangement 16 can be designed to inform the user of the application 32 only in exceptional cases. The exceptional case can be determined by data from the machine tool 12 and/or by data from the sensor device 18 analyzed by a filter 34 .

10 machine tool arrangement

12 machine tool

14 laser cutting tool

16 control arrangement

18 sensor setup

20a-c camera

22 data exchange

24 power supply

26 mobile communication device

28 Network Connection

30 storage and/or evaluation unit

32 application

34 filters

36 Chatbot

38 other mobile communication device

40 more application

42 rating

44 geometric position

Claims

patent claims

A machine tool arrangement (10), which has the following: a) a machine tool (12) with a sensor device (18) for monitoring at least part of the machine tool (12); b) a control arrangement (16) for controlling at least part of the machine tool (12), the control arrangement (16) being designed to receive data from the sensor device (18); c) a mobile communication device (26) with an application (32) for the bidirectional exchange of data with the control arrangement (16), wherein the control arrangement (16) can be connected to the mobile communication device (26) via a network connection (28), so that data the sensor device (18) can be displayed in the application (32) and at least part of the machine tool (12) can be controlled with the application (32); d) a further mobile communication device (38) with a further application (40), the application (32) being designed to exchange data with the further application (40), in particular in the form of a chat, and the control arrangement (16) can be connected to the additional mobile communication device (38) via the network connection (28), so that data from the sensor device (18) can be displayed in the additional application (40) and in particular at least part of the machine tool (12) can be connected to the additional application (40) is controllable.

2. Machine tool arrangement according to claim 1, wherein the machine tool (12) is designed in the form of a machine tool (12) for sheet metal working.

3. Machine tool arrangement according to claim 1 or 2, wherein the sensor device (18) has at least one camera (20a-c).

4. Machine tool arrangement according to one of the preceding claims, in which the control arrangement (16) comprises a computer, preferably an industrial PC, in particular an industrial Raspberry Pi.

5. Machine tool arrangement according to one of the preceding claims, in which the control arrangement (16) has a router, WI_AN and/or a network cable for establishing the network connection (28).

6. Machine tool arrangement according to one of the preceding claims, in which the mobile communication device (26) and/or the further mobile communication device (38) is/are in the form of a smartphone, a laptop, notebook or tablet computer.

7. Machine tool arrangement according to one of the preceding claims, in which the control arrangement (16) has a chatbot (36) for communication with the application (32) and/or the further application (40).

8. Machine tool arrangement according to one of the preceding claims, in which the application (32) and/or the further application (40) is designed to display a rating (42) for evaluating the state of the machine tool (12).

9. Machine tool arrangement according to one of the preceding claims, in which the control arrangement (16) is designed to transmit data from the machine tool (12) via the network connection (28) to the application (32) and/or the further application (40).

10. Machine tool arrangement according to one of the preceding claims, in which the control arrangement (16) has a filter (34) which is set up to recognize certain constellations of the sensor device (18) and to the application (32) and/or the further application (40) to submit.

11. Machine tool arrangement according to one of the preceding claims, in which the control arrangement (16) has a memory unit (30) for storing the data from the sensor device (18) and/or the data from the machine tool (12), the control arrangement (16) having an evaluation unit (30) for evaluating stored data and wherein the evaluation unit (30) is designed to transmit a recommendation for further action based on the evaluation to the application (32) and/or the further application (40).

12. The machine tool arrangement as claimed in claim 11, in which the memory unit (30) and/or the evaluation unit (30) is/are designed to be cloud-based.

13. Mobile communication device (26) of a machine tool arrangement (10) according to any one of the preceding claims, wherein the mobile communication device (26) has the application (32).