WO2020115214A1

WO2020115214A1 - Method for configuring a detection device

Info

Publication number: WO2020115214A1
Application number: PCT/EP2019/083832
Authority: WO
Inventors: Igor Andreichyn
Original assignee: company42 GmbH
Priority date: 2018-12-06
Filing date: 2019-12-05
Publication date: 2020-06-11
Also published as: DE102018131214A1; EP3891578A1

Abstract

The invention relates to a method (1) for configuring a separate, retrofitted detection device (10) for detecting at least one output parameter (AP) of an output unit (101) of a machine (100), the method having the following steps: - positioning a housing (20) of the detection device (10) in order to orient a detection sensor (40) of the detection device (10) for detecting at least one output parameter (AP) of the output unit (101) of the machine (100), - configuring a detection region (EB) of the detection sensor (40) of the detection device (10) for detecting at least one output parameter (AP) of the output unit (101) of the machine (100).

Description

Method for configuring a detection device

Description

The subject matter of the present invention relates to a method for configuring a separately configured, subsequently arranged detection device for detecting at least one output parameter of an output unit of a machine.

It is generally known that machines have output units for outputting output parameters. Within the scope of the invention, machines can be structurally simple counter devices, production machines, measuring devices, calibration devices, a computer unit and / or devices in a production line and / or a logistics system. The method according to the invention and the detection device of the method can in principle be used with any output unit.

It is often intended to record, log, or otherwise process the output parameters of an output unit of a machine. In practice, however, a large number of machines have the only function for outputting the output parameters for further processing, the visual output by means of an output unit. A digital or otherwise designed interface for the output is usually not available and retrofitting such an interface is technically and / or economically complex or not possible. A detection of an output parameter usually requires the user to examine the output unit and to manually transfer the values to an analog or digital system.

It is a disadvantage of the known manual solutions that the manual acquisition is time-consuming and inefficient and is also highly error-prone. With manual recording, an incorrect output parameter can easily be read, an assignment incorrectly selected for manual transmission, typing or typing errors can lead to further errors, and users tend to tend due to frequently recurring processes a corresponding task over time to lower mindfulness, which further increases the susceptibility to errors of manual recording.

It is an object of the present invention to at least partially remedy the disadvantages described above. In particular, it is the object of the present invention to provide, in a cost-effective and simple manner, a method for configuring a separately designed, subsequently arranged detection device for detecting at least one output parameter of an output unit of a machine.

The above object is achieved by a method having the features of claim 1. Further features and details of the invention emerge from the subclaims, the description and the drawings. Features and details that are described in connection with the main claim according to the invention apply, of course, also in connection with the subclaims according to the invention and vice versa, so that with respect to the disclosure of the individual aspects of the invention, reference is always or can be made to one another.

According to the invention, a method for configuring a separately configured, subsequently arranged detection device for detecting at least one output parameter of an output unit of a machine has the following steps:

Arrangement of a housing of the detection device for aligning a detection sensor of the detection device for detecting at least one output parameter of the output unit of the machine,

- Configuration of a detection area of the detection sensor of

Detection device for detecting at least one output parameter of the output unit of the machine.

A core idea of the present invention is therefore the configuration of a separately designed, subsequently arranged detection device for detecting at least one output parameter of an output unit of a machine using a method according to the invention. An arrangement of a housing of the detection device for aligning a detection sensor of the detection device is to be understood according to the invention as a temporary or permanent arrangement. What is decisive for the arrangement is that the detection sensor of the detection device is aligned in the direction of the output unit of the machine. An arrangement of the housing can already include a subsequent fastening of the detection device or only a provisional arrangement of the Be detection device. In the context of the invention, subsequent fastening is to be understood as retrofitting after the manufacturing process of the machine and usually independently of the manufacturing steps of the manufacturer. Retrofitting can be carried out before, during or, in particular, long after the machine has been started up. For fastening, the detection device has a fastening interface in the form of a screw, clamp, slide-in, magnetic or other temporary or permanent fastening connection. The fastening device of the detection device serves primarily to arrange the housing in a fastening position. An attachment position is characterized by such an arrangement of the housing and the optical detection sensor that the detection sensor can optically detect the at least one output parameter of the output unit of the machine. In other words, the fastening position serves for the detection sensor to be arranged to see the output unit or for the output unit to be in the detection range of the detection sensor. The fastening position thus enables an output parameter of the output unit to be detected by the detection sensor. It can thus also be seen that a detection area of a detection sensor is to be understood as the area which the detection sensor detects or sees. In a fastening position, a detection device is preferably arranged at a distance between 5 cm and 100 cm between the detection sensor and the output unit. Detection sensors with a greater distance of, for example, several meters from the output unit are also possible. A focusing of the detection sensor on the output unit, ie a correct setting of the detection sharpness of the detection sensor to the distance between the detection sensor and the output unit, can be carried out as an automatic method step or as a manual setup step.

A configuration of the detection area of the detection sensor is understood in the context of the invention as a specification and / or limitation of the entire detection area of the detection sensor to the area or area of the output parameter of the output unit within the entire detection area. For example, the detection sensor can be understood as a camera, which is directed in the direction of the output unit. The detection area of the camera covers a larger area around the output unit before the detection area is configured. A configuration of the detection area consequently limits the detection area to the relevant section of the output unit for the output parameters and thus enables a detailed and more precise, in particular exclusive, observation of the desired area. A detection area can be contiguous or consist of several sections. For example, several areas of one or more output units can be detected in detail by the detection device. It is also possible within the scope of the invention that a detection area is not restricted in the configuration, since the output unit is arranged in the entire detection area of the detection device. A configuration of the detection area can also include an adjustment of the settings and / or features of the detection sensor. A configuration can also be an adjustment of the brightness, the contrast, the color settings, the color spectra and / or further settings of the detection sensor. A method designed in this way is particularly advantageous since it provides a method for configuring a separately designed, subsequently arranged detection device for detecting at least one output parameter of an output unit of a machine in a cost-effective and simple manner.

It can be advantageous if a method according to the invention is designed such that the method further comprises:

Detection of at least one output parameter of the output unit of the machine by the detection device,

Evaluation of the detected output parameter by the detection device,

Output of the at least one evaluated output parameter by the detection device,

Confirmation or correction of the output evaluated output parameter by a user to configure the detection device.

Developed in this way, a method according to the invention enables an extremely secure and reliable confirmation or correction method for checking the recorded output parameters. To confirm or correct the detected output parameters, the method first comprises the detection device acquiring at least one output parameter of the output unit of the machine. This detected output parameter is evaluated by the detection device, in particular by a computer unit of the detection device. For example, this can be an evaluation of a captured image of an output unit with at least one output parameter for a digital numerical value. Likewise, within the scope of the invention, the status display of at least one round instrument, at least one color, at least one fill level and / or at least one light intensity can be detected as an output parameter of an output unit and by the detection device, in particular the Computer unit of the detection device, for example, digital data can be evaluated. The at least one evaluated output parameter is then output by the detection device and displayed to the user by any device or made available in another way. The user can compare this output parameter, which is displayed, for example, with the output parameter of the output unit and confirm or correct it. A method according to the invention thus enables the configuration of a separately designed, subsequently arranged detection device for detecting at least one output parameter of an output unit of a machine with simple means. In addition, the method according to the invention advantageously enables configuration in the form of a check of the output parameters output and consequently represents a further development of the method which is desirable for the person skilled in the art.

A further advantage can be achieved if a method according to the invention is designed such that at least one marking device for determining the location of the output unit, in particular an output area of the output unit, is arranged in the configuration of the detection area of the detection sensor. An output area of an output unit is understood to be the area of the output unit in which one or more output parameters can be output. The configuration of the detection area can use marking devices for determining the location of the output unit. In a simple embodiment, marking devices can be stickers. Alternatively, marking devices can be magnetic, adhesive and / or screwable and / or attachable devices. As an alternative or in addition, the marking devices can be transparent and / or be formed with pigments, in particular lacquer, which are not or only slightly perceptible to human perception. According to the method according to the invention, at least one or a plurality of marking devices can be used for the purpose described. The marking devices are placed, for example, by a user on or around the output unit and the detection device recognizes the position or the location of the output unit on the basis of the marking devices. This further development of the method represents an advantageous automation of an initial configuration step for recognizing at least one output unit and thus facilitates the use of the method and the at least one detection device for the user.

A further advantage can be achieved if a method according to the invention is designed such that when configuring the detection area of the detection sensor, the Output unit, in particular the output area of the output unit, is automatically recognized. In addition to or as an alternative to the previous section, in a method according to the invention the output unit, in particular the output area of the output unit, can be automatically recognized by the detection sensor of the detection device. For this purpose, the automatic recognition can be based in particular on machine learning and / or databases of output units that have already been recognized. The method can also recognize output units based on design features of the output units. Typically, dispensing units have a specific external shape. For example, round instruments can be recognized automatically by a round shape and a round or semicircular scale for a detection device. Output units in the form of, for example, rectangular displays or numerical output parameters can likewise advantageously be automatically recognized on the basis of their outer shape and with an image evaluation. This development of the method can represent a very advantageous further development of the method, in particular in connection with the previously described confirmation and correction method steps, since the method or the detection of output units is continuously improved in this way.

It is also advantageous if a method according to the invention is designed such that the housing is fastened to the machine, a mobile device and / or to a user by means of a fastening section of a fastening interface of the detection device. A method according to the invention can be carried out with a stationary detection device which is permanently arranged and fastened at a constant position in the fastening position, for example on the machine. However, the method can also be carried out with a mobile detection device, which is arranged and attached, for example, to a user or to a mobile device. In both process applications, it is usually no longer necessary to adapt the arrangement, fastening and alignment of the detection device after the initial or first-time arrangement, fastening and alignment for a permanently successful detection of the output parameters. However, the mounting position of a detection device can be changed at a later time. For example, the method can be attached to a user by means of a detection device in the form of a body detection device or “body cam”. For this purpose, a fastening section of the detection device is designed such that this fastening section fastens the detection device to a piece of clothing or another section of a user. A user can therefore use of the detection device, in particular without having to hold and / or move the detection device. A movement of the user can thus, for example, be a departure from different stations with output units from machines. At each station, depending on the design of the method, only the detection range of the detection sensor of the detection device can be configured or the output parameters of the output unit or output units can also be recorded and evaluated. Alternatively, a method according to the invention can include a detection device which has a fastening section of a fastening interface, which enables the detection device to be subsequently fastened to a mobile device. According to the invention, a mobile device can be understood analogously to the user described above, so that a mobile device moves a detection device attached to the mobile device between a plurality of output units of machines. A mobile device thus represents an example of automation of the user. A mobile device can be a device on a conveyor belt, a device on a robot arm, a mobile drone or another device designed for movement. A movement is understood in the context of the invention in such a way that the movement of the mobile device moves the fastening section of the fastening interface and thus the detection device. As a result, the detection range of the detection sensor of the detection device shifts, for example, from one output unit to another output unit. A method designed in this way represents an advantageous extension of the method because the flexible arrangement and / or the subsequent attachment to the machine, to a mobile device and / or to a user increases the possible uses of the method and, for example, to a user the configuration of the detection device and the acquisition of output parameters easier. Alternatively, with a method designed in this way, the configuration of the detection device and the detection of output parameters can be completely or largely automated with simple and inexpensive means.

Further advantages can be achieved if a method according to the invention is designed in such a way that the at least one output parameter is adapted to a receiving module. An adaptation, in particular in the evaluation and / or the output, of the at least one output parameter to a reception module represents an advantageous further development of the method according to the invention. In principle, an adaptation of the at least one output parameter to a reception module serves for readability and / or better processing by the Receiving module. A receiving module points always have a limited ability to process and read the output parameters transmitted to the receiving module. In order to ensure legibility and the processing of the output parameters by the receiving module, the method provides for an adaptation of the output parameters. For example, the at least one recorded output parameter can be adapted to common file formats and / or common programming languages and optimized for processing by them. In particular, the method according to the invention offers an adaptation to commercially available ERP software and its file formats and programming languages. The method according to the invention also provides for adaptation to customary protocols and bus systems such as OPC-UA. A method designed in this way enables the greatest possible flexibility in the use of the detection device of the method and thus the simplest possible configuration of the detection device. This saves the user time and money when setting up and configuring the detection device of the method, and the method enables the detection device to be used with the largest possible number of machines or their output units.

It is also advantageous if a method according to the invention is designed in such a way that the at least one acquired output parameter of the output unit of the machine is transmitted to a receiving module for machine learning of the acquisition of output parameters from output units. A particularly preferred method for recognizing output units by the detection device is the use of a neural network. However, a neural network requires data input as the basis for the learning process. Within the scope of the method according to the invention, these data inputs are the recognized output units and the detected output parameters. In addition, the confirmation or correction entries of a user from the sections described above can be used as additional data entries. A neural network that is served with this data is a steadily improving basis for the recognition of output units by a detection device. The method can consequently improve itself and the detection of output units by providing recorded output parameters of the output unit of the machine to a reception module of a neural network. In a system comprising a plurality of detection devices, which transmit all the recognized output units and detected output parameters from the machines to a respective or the same reception module of a neural network, the detection devices can consequently improve one another in the detection of output units. It is also advantageous if a method according to the invention is designed such that the configuration of the detection area is carried out on the detection device and / or on a mobile terminal which is connected to the detection device in a data-communicating manner. A mobile device can in particular be a smartphone or a tablet. In this way, the method offers increased comfort for the user, who can configure the detection device on the detection device itself or on said mobile terminal. For example, the configuration of a large number of detection devices can be carried out by a mobile terminal device and thus a particularly preferred user experience can be created during the setup and configuration, since it is not necessary to go to each individual detection device in order to configure them. The data-communicating connection of the mobile terminal to the detection device is preferably wireless, but can also be configured as wired. A wired connection solution can save costs and enable improved connection stability.

There are further advantages if a method according to the invention is designed in such a way that the detection device does not require a network connection to carry out the method. In order to keep the execution of the method as user-friendly as possible and to keep the preparation for the method as low as possible, it is advantageous that the method can be carried out without a network connection. There is no need to connect to a wireless network or a wired network to perform the procedure. The data collected and

Output parameters can be stored and / or cached in a method designed in this way, in particular exclusively, on the detection device and can be available for integration into a network at a later point in time. The method thus offers a user a practical, simple arrangement and configuration of the detection device without any further requirements for the machine or the environment of the machine.

It is also advantageous if a method according to the invention is designed in such a way that a configuration of a detection area of the detection sensor of a first detection device can be saved as a configuration profile and used for configuration of a second detection device. According to the further development of the method, a configuration of a detection area of the detection sensor of a first detection device can be stored and used again. Saving A configuration process step is carried out as a configuration profile. A configuration profile can be transferred, for example, to other detection devices in a wireless or wired manner. The configuration profile can be called up on the further detection device and thus a configuration of the second detection device can be accelerated with the previously determined settings or at least largely with the previously determined settings. A method designed in this way offers a user increased convenience in the configuration of at least two identically or at least largely identically arranged detection devices.

Further advantages, features and details of the invention emerge from the following description, in which exemplary embodiments of the invention are described in detail with reference to the drawings. The features mentioned in the claims and in the description can be essential to the invention individually or in any combination. They show schematically:

Figure 1 is a plan view of a detection device of an inventive

Process,

FIG. 2 shows a front view of another detection device of a method according to the invention,

FIG. 3 shows a top view of a further detection device with a machine and an output unit of a machine of a method according to the invention,

Figure 4 is a front view of an output unit with a plurality of output parameters and marking devices of a method according to the invention.

Figures 1 to 4 show detection devices 10 and / or output units 101 of the method 1 according to the invention in different configurations. The scales and proportions of the features shown are not true to scale in FIGS. 1 to 4 and the arrangement of the features relative to one another is only exemplary.

FIG. 1 shows a top view of a first embodiment of a detection device 10 of a method 1 according to the invention. The detection device 10 is configured by a housing 20 with a housing interior 22. In the housing interior 22 is a computer unit 50 is arranged with an output module 60, a communication means 62 of the output module 60, and a battery device 70. As an alternative or in addition to a battery arrangement 70, the detection device 10 of the method according to the invention can also have a power connection. The housing 22 also has a fastening interface 30 and a cutout for a detection sensor 40. The detection sensor 40 is designed to detect output parameters AP (not shown). The fastening interface 30 is designed as a dovetail or trapezoidal fastening interface 30 of the housing 20. The detection sensor 40 is connected to the computer unit 50 for data communication (not shown) by means of a sensor interface 42. The computer unit 50 evaluates the detected output parameters AP (not shown). The output module 60 is designed to transmit the at least one evaluated output parameter AP (not shown). A detection device 10 configured in this way is particularly advantageous since the detection device 10 can be configured in a cost-effective and simple manner to detect output parameters AP (not shown) at an output unit 101 (not shown) of a machine 100 (not shown). For this task, the detection device 10 of the method according to the invention requires a very small installation space, low material and manufacturing costs and no to very slight adjustments to a machine 100 (not shown) for arranging and / or fastening the detection device 10.

FIG. 2 shows a front view of another embodiment of a detection device 10 of method 1 according to the invention. The detection device 10 of FIG. 2 has a detection sensor 40 and a fastening interface 30.

FIG. 3 shows a top view of a further embodiment of a detection device 10 with a machine 100 and an output unit 101 of a machine 100 of a method 1 according to the invention. The fastening interface 30 of the detection device 10 is fastened to a fastening section 34 for a subsequent arrangement and / or fastening of the housing 20 to the machine 100, a mobile device and / or to a user. The detection device 10 is arranged in a fastening position BP, so that the detection area EB of the

Detection sensor 40 is aligned with the output parameters AP of the output unit 101 of the machine 100. Thus, according to the method according to the invention, when configuring the detection device 10, the detection area EB of the Detection sensor 40 are focused or aligned to the output parameters AP. The detection device 10 can be configured in this way with simple means for the detection of output parameters AP. By means of transmission to, for example, a mobile terminal 202, the detected output parameters AP can be confirmed or corrected by a user.

FIG. 4 shows a front view of an output unit 101 with a plurality of output parameters AP and marking devices 102 of a method 1 according to the invention. An output unit 101 preferably represents or outputs an output parameter AP. However, several, at least two, output parameters AP can also be represented or output by an output unit 101. The output unit 101 of a machine 100 of FIG. 4 shows output parameters AP in the form of a status display of a round instrument, a numerical value, two lights, in particular two lights of different colors and a fill level indicator. A method 1 according to the invention enables one, several or all of the output parameters AP of the display unit 101 of the machine 100 to be detected. To configure the detection area EB of the detection sensor 40, four marking devices 102, a marking device 102 at each corner of the output unit 101, are arranged for determining the location of the output unit 101 . A method 1 according to the invention thus enables the configuration of a separately designed, subsequently arranged detection device 10 for detecting at least one output parameter AP of an output unit 101 of a machine in a cost-effective and simple manner.

The above explanation of the embodiments describes the present invention exclusively in the context of examples. Of course, if technically meaningful, individual features of the embodiments can be freely combined with one another without departing from the scope of the present invention.

B ez u q s ze i c h e n l i s te

1 Method for configuring a detection device

10 detection device

20 housing

22 housing interior

30 mounting interface

32 arrangement section

34 fastening section

40 detection sensor

42 sensor interface

44 optical device

46 Expansion interface

50 computer unit

60 output module

62 means of communication

64 means of network communication

70 battery device

100 machine

101 output unit

102 marking device

200 receiver module

201 network reception module

202 mobile device

AP output parameters

BP mounting position

S A user's field of vision

Claims

Patent claims

1. A method (1) for configuring a separately configured, subsequently arranged detection device (10) for detecting at least one output parameter (AP) of an output unit (101) of a machine (100), comprising the following steps:

- Arrangement of a housing (20) of the detection device (10) for aligning a detection sensor (40) of the detection device (10) for detecting at least one output parameter (AP) of the output unit (101) of the machine (100),

- Configuration of a detection area (EB) of the detection sensor (40) of the detection device (10) for detecting at least one output parameter (AP) of the output unit (101) of the machine (100).

2. The method (1) according to claim 1,

characterized in that the method further comprises:

Detection of at least one output parameter (AP) of the output unit (101) of the machine (100) by the detection device (10),

- Evaluation of the detected output parameter (AP) by the detection device (10),

- Output of the at least one evaluated output parameter (AP) by the detection device (10),

Confirmation or correction of the output evaluated output parameter by a user for configuration of the detection device (10).

3. The method (1) according to one of the preceding claims,

characterized in that at least one marking device (102) for determining the location of the output unit (101) is arranged in the configuration of the detection area (EB) of the detection sensor (40).

4. The method (1) according to any one of the preceding claims,

characterized in that when the detection area (EB) of the detection sensor (40) is configured, the output unit (101) is automatically recognized.

5. The method (1) according to one of the preceding claims, characterized in that the housing (20) is fastened to the machine (100), a mobile device and / or to a user by means of a fastening section (34) of a fastening interface (30) of the detection device (10).

6. The method (1) according to one of the preceding claims,

characterized in that the at least one output parameter (AP) is adapted to a reception module (200).

7. The method (1) according to any one of the preceding claims,

characterized in that the at least one acquired output parameter (AP) of the output unit (101) of the machine (100) is transmitted to a receiving module (200) for machine learning of the acquisition of output parameters (AP) from output units (101).

8. The method (1) according to any one of the preceding claims,

characterized in that the configuration of the detection area (EB) is carried out on the detection device (10) and / or on a mobile terminal (202) which is connected to the detection device (10) in a data-communicating manner.

9. The method (1) according to one of the preceding claims,

characterized in that the detection device (10) does not require a network connection for executing the method (1).

10. The method (1) according to one of the preceding claims,

characterized in that a configured configuration of a detection area (EB) of the detection sensor (40) of a first detection device (10) is saved as a configuration profile and can be used for a configuration of a second detection device (10).