EP3774185A1

EP3774185A1 - Tool and method for actuating a tool

Info

Publication number: EP3774185A1
Application number: EP19724435.3A
Authority: EP
Inventors: Winfried Czilwa
Original assignee: Stahlwille Eduard Wille GmbH and Co KG
Current assignee: Stahlwille Eduard Wille GmbH and Co KG
Priority date: 2018-05-15
Filing date: 2019-05-13
Publication date: 2021-02-17
Also published as: CN112188947A; DE102018111652A1; US20210107121A1; JP2021523840A; WO2019219611A1

Abstract

The subject of the invention is a tool (100), in particular a torque tool, torque tester or rotation angle tester, having a user identification unit (10) for identifying the user of the tool (100), a user data unit (11), in which user-specific data for handling the tool (100) are collected, a work data unit (12), in which work data for applications of the tool (100) are collected, a learning unit (13), connected to the user data unit (11) and the work data unit (12), in which data during actuation of the tool (100) by the user are captured and compared with the data collected in the user data unit (11) and the work data unit (12) and are adapted in the event of a discrepancy, and an adaptation unit (14) connected to the user data unit (11) and the work data unit (12), by means of which the actuation of the tool (100) is adaptable and controllable depending on the user-specific data and the work data.

Description

TITLE: Tool and method for operating a tool Description

The present invention relates to a tool, in particular a torque tool, a torque tester or a Drehwinkelprüfgerät. Furthermore, the invention relates to a method for actuating a corresponding tool.

State of the art

For hand-held tools, the correct operation of the tool in order to achieve optimum results depends to a large extent on the type of operation of the tool by the user. A hand-held tool may be, for example, a hand-held screwing tool, such as a torque tool with which a defined tightening torque can be exerted on a connecting element, such as a screw or a nut, to provide the necessary clamping force between the components to be connected, even during the onset of maximum operating forces to ensure. For example, if the user improperly controls the tool, it may overrun. But it is also possible that the applied torque is too low, so that no sufficient connection between the components to be joined can be made. The work result achieved with the tool can therefore vary greatly depending on the user of the tool.

DESCRIPTION OF THE INVENTION: Problem, Solution, Advantages

It is therefore the object of the present invention to provide a tool and a method for actuating a tool, in which the handling and the achieved work result can be improved.

This object is achieved with the features of the independent claims. Advantageous embodiments and further developments of the invention are specified in the dependent claims.

The tool according to the invention is characterized in that it comprises a user recognition unit for identifying the user of the tool, a user data unit in which user-specific data for handling the tool A work data unit in which work data for use cases of the tool are collected, a learning unit connected to the user data unit and the work data unit, in which data is detected during operation of the tool by the user and with the data collected in the user data unit and the work data unit and an adaptation unit connected to the user data unit and the work data unit, by means of which the actuation of the tool is adaptable and controllable in dependence on the user-specific data and the work data.

Furthermore, the method for actuating a tool is characterized in that a user of the tool is identified in a user recognition unit, user-specific data for handling the tool are collected in a user data unit, work data is collected in a work data unit for use cases of the tool, in one with the User data unit and the working data unit connected learning unit data during operation of the tool by the user detected and compared with the data collected in the user data unit and the work data unit and adjusted data, and in an associated with the user data unit and the work data unit adjustment unit depending on the user-specific data and Working data the operation of the tool is adjusted and controlled.

In this way, an intelligent tool can be created, which can adapt to a user, so that the handling of the tool for the user and also the work result achieved with the tool can be improved. The tool can recognize the user of the tool, so that the type of operation of the tool can be selectively adjusted to this user, so that each user can be assigned an individual way of operation or handling of the tool. In this case, the application is taken into account, ie which application should be done with the tool currently, so that the nature of the respective use of the tool in the control of the tool can be taken into account. In this case, an identification of the current user of the tool initially takes place so that the tool knows from the beginning which user is currently operating the tool. If user-specific data for this user has already been collected in the user data unit, then this data can be adjusted so that the tool already recognizes how the type of operation of the tool by this user was carried out in previous operations. If this is a new user who has not yet used the tool, it can be created as a new user in the user data unit, so that the current and future user-specific data for that user can be collected there. If the tool is actuated, both data from the user data unit and from the working data unit are used as the basis for adapting the operation of the tool to the current user and also to the current application. During operation of the tool, new data on the type of operation by the user is acquired by a learning unit and compared with the data of the user data unit and work data unit, and if data or new data deviate, this data is collected in the user data unit and / or the work data unit be adapted or updated. Thus, a learning system can be created, whereby a continuous optimization of the operation of the tool can be achieved. Furthermore, an adaptation unit is provided, which is connected to at least the user data unit and the work data unit, so that the operation of the tool can be adjusted and controlled depending on the data of the user data unit and the work data unit.

The user-specific data may include, for example, personal identification data and / or user force application data and / or data about user-reachable torque and / or data on the type and severity of user rollover. The user-specific data thus preferably includes data for the manner of operation or handling of the tool by the respective user. Also, individual data about the person of the user himself are preferably recorded in the form of a person identifier as user-specific data in the user data unit, so that each user's own data or their own user-specific data can be assigned. Each user operates a tool differently. For example, each user brings a force different on the tool. Also, the achievable torque can vary with each user. Furthermore, the risk of being torn varies depending on the user. All of this data can be collected as user-specific data in the user data unit. Further user-specific data is also conceivable.

The working data can include, for example, data on the type of screwdriving and / or data on a screw-in angle and / or data on a material of the screwing and / or data to a material in which the screwing takes place. Further work data are also conceivable. A screwing example, be hard or soft. In a hard screwing the screw head hits a hard surface, causing the torque increases abruptly. In a soft screw the torque, however, slower and thus softer. Further, depending on the application, the screw-in angle may be different, whereby the type of operation of the tool is different and must be adjusted accordingly. The material of the Einschraubmittels, such as a screw, but also the material into which the screwed, can affect the operation of the tool.

The data of the user data unit and the work data unit can be stored in the respective data units themselves, so that the user data unit and the work data unit can each be assigned a separate database. But it is also possible that a central database is provided to which the user data unit and the work data unit are assigned, so that the user data unit and the work data unit store and store their data in a central database, so that they themselves no database and thus no own Need memory.

This central database can be arranged within the tool and thus integrated in the tool. But it is also possible that the central database is positioned outside the tool. The user data unit and the work data unit may be connected to the central database via a radio link or a cable connection for transmitting the data to the central database. The identification of the user currently operating the tool can be made in various ways in the user recognition unit. For example, by an identifier input by the user, each user can be assigned a specific identifier. The identifier may be, for example, a number code. It is also possible to enter or capture an identification card or an identification stick. Furthermore, the identification can also take place via biometric data of the user, such as a fingerprint. It is also possible to read in an optical code, such as a QR code, which is assigned to a user. The identification of the user is preferably carried out at the beginning of the operation of the tool.

If, on the basis of the user-specific data and the working data, an adaptation of the tool or an adaptation of the working of the tool is necessary during the actuation of the tool, then this adaptation can take place automatically, without the user being aware of this. But it is also possible that when adjusting the operation of the tool, the adjustment unit emits a warning message to the user, so that he perceives the adjustment and optionally also can recognize what form of adaptation to the tool. The warning message can be done for example by an optical and / or acoustic signal.

It is also possible that the user data unit and / or the work data unit and / or the central database can be connected to a company software system, such as a PPS / ERP system, by cable or radio, so that a reconciliation of data between this company software system and the user data unit and / or the work data unit and / or central database. By means of the adjustment, it can be determined, for example, at which location the tool is currently located. Furthermore, an input or transmission of data from a work plan of the company software system into the central database and / or the work data unit and / or the user data unit is possible. In addition, data from the tool, such as an actual tightening torque, the number of bolting performed, times, user ID or the like, from the work data unit and / or the user data unit and / or the central database to the Company software system are transmitted and evaluated there and / or managed.

Short description of the drawing

Further, measures improving the invention will be described in more detail below together with the description of a preferred embodiment of the invention with reference to the single FIGURE.

The single figure shows schematically a tool according to the invention.

Preferred embodiments of the invention

In the single figure, a tool 100 is shown greatly simplified schematically. The tool 100, in particular a hand-held tool, may for example be a torque tool, a torque tester or a Drehwinkelprüfgerät. Other types of tools 100 are also conceivable.

The tool 100 has a user recognition unit 10. The user recognition unit 10 identifies the user currently operating the tool 100. In the user recognition unit 10, personal data may be stored to different users so that the user identifying with the tool 100 may be recognized and assigned. To identify the user, for example, the user can manually enter an identifier in the form of a number code or have it entered via a card or a stick. Furthermore, the identification can also be carried out by biometric data of the user by identifying himself with his fingerprint on the user recognition unit 10. Other options include an optical code or an RFID or NFC system to identify the user. Furthermore, it is also possible to log in the user on a central system arranged away from the tool 100, wherein this central system can then preferably forward the read-in data via radio to the user recognition unit 10 in the tool 100.

The user recognition unit 10 is connected to a user data unit 11 by radio or cable. In this user data unit 11, user-specific data for the handling of the tool 100 are collected. For each user can thus in the user data unit 11 user-specific Be assigned data that can be accessed when pressing or to operate the tool 100. The tool 100 can thus recognize how the user handled the tool 100 in its previous uses or how it could handle it. The user-specific data preferably comprises a person identifier, which is matched with the data from the user recognition unit, so that a user can be uniquely identified and assigned further user-specific data. Further, the user-specific data may be the achievable torque, the type of force application, and / or the type and severity of the user's tearing.

In addition to the user-specific data, the tool also knows work data for different applications, which are collected in a work data unit 12. Working data can be, for example, the type of screwdriving, screwing-in angle, material of the screwing-in means and / or material into which the screwed connection takes place.

In order to keep the user-specific data of the user data unit 11 and the working data of the working data unit 12 up to date and to be able to adapt again and again, a learning unit 13 is provided, which is connected to the user data unit 11 and the work data unit 12 via cable or radio. In the learning unit 13, data during operation of the tool 100 is detected by the user and compared with the data collected in the user data unit 11 and the work data unit 12, and adjusted in case of a deviation in the user data unit 11 and the work data unit 12. By the learning unit 13, a learning of the tool 100 can be done, as this can be further adapted and optimized to the peculiarities of each user and the characteristics of each application. The learning unit 13 may include, for example, one or more sensors via which the type of handling of the user and also the current application can be detected and detected.

To set the tool 100 to the respective user and the respective application, an adaptation unit 14 is further provided, by means of which, depending on the user-specific data of the user data unit 11 and the Working data of the working data unit 12, the operation of the tool 100 can be adjusted and controlled. The adaptation unit 14 can detect and compensate deviations in the planned work by means of the tool 100. In this case, the adaptation unit 14 can also output a warning message to the user, so that the user receives a feedback and recognizes that there is a deviation and an adjustment takes place. The warning message can be made by an optical or an acoustic signal.

Furthermore, based on the specific handling of the tool 100 by the user, it can also be recognized whether the user logged on to the user recognition unit 10 is involved, and if the user is logged in incorrectly, a corresponding acknowledgment can be output via a warning message to the matching unit 14.

The tool 100 thus has an intelligent control so that the tool 100 is able to recognize the user-specific data and the working data and to control a guidance or handling of the tool by the user via the adaptation unit 14 such that for the respective user and the particular application, an optimal work result can be achieved. This can be achieved, for example, by a repeated tightening of an exemplary tightening by the user, in which the tool 100 acquires the data in the learning unit 13 and adjusts the data in the user data unit 11 and the work data unit 12 accordingly, so that an adjustment of the operation and the Operation of the tool 100 can be done via the adjustment unit 14.

The data of the user data unit 11 and the working data unit 12 are stored in the embodiment shown here in a central database 15, which is arranged in the tool 100. The user data unit 11 and the work data unit 12 are each connected to the central database 15 by radio or cable.

The invention is not limited in its execution to the above-mentioned preferred embodiment. Rather, a number of variants is conceivable, which of the illustrated solution even with fundamentally different makes use of the same type. All features and / or advantages resulting from the claims, the description or the drawings, including design details, spatial arrangements and method steps, can be essential to the invention, both individually and in the most diverse combinations.

LIST OF REFERENCE NUMBERS

100 tools

10 user recognition unit

11 user data unit

12 working data unit

13 learning unit

14 adaptation unit

15 Central database

Claims

claims

1. tool (100), in particular torque tool, torque tester or Drehwinkelprüfgerät, with

a user recognition unit (10) for identifying the user of the tool (100),

a user data unit (11) in which user-specific data for handling the tool (100) are collected,

a work data unit (12) in which work data for use cases of the tool (100) are collected,

a learning unit (13) connected to the user data unit (11) and the work data unit (12) in which data is detected by the user during operation of the tool (100) and collected by the user data unit (11) and the work data unit (12) Data compared and adjusted in case of deviation, and

an adaptation unit (14) connected to the user data unit (11) and the work data unit (12), by means of which the actuation of the tool (100) can be adapted and controlled in dependence on the user-specific data and the work data.

2. Tool (100) according to claim 1, characterized in that the user-specific data for personal identification data and / or data on the type of force application of the user and / or data to a user-accessible torque and / or data on the nature and expression of a Covering by a user.

3. Tool (100) according to claim 1 or 2, characterized in that the working data data on the type of screwing and / or data to a screwing and / or data to a material of the screwing and / or data to a material, in which the Screwed in, include.

4. Tool (100) according to one of claims 1 to 3, characterized in that the user data unit (11) and the working data unit (12) are assigned to a central database (15).

5. Tool (100) according to claim 4, characterized in that the central database (15) in the tool (100) is arranged.

6. A method for operating a tool (100), in particular a torque tool, a Drehmomentprüfgerätes or a Drehwinkelprüfgerätes, in which a user of the tool (100) is identified in a user recognition unit (10) in a user data unit (11) user-specific data for handling the Tool (100) are collected, in a work data unit (12) work data for use cases of the tool (100) are collected, in a with the user data unit (11) and the work data unit (12) associated learning unit (13) data during actuation of the tool ( 100) are detected by the user and compared with the data collected in the user data unit (11) and the work data unit (12) and adjusted in deviation, and in a matching unit (14 ) depending on the user-specific data and the work data the operation of the tool (100) is adjusted and controlled.

7. The method according to claim 6, characterized in that an identification of a user in the user recognition unit (10) by an identification input and / or a detection of the biometric data and / or a reading in of an optical code.

8. The method according to claim 6 or 7, characterized in that the adjustment unit (14) outputs a warning message to the user when adjusting the operation of the tool.