• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Summary The invention relates to a tool with tool components (1-5), which comprise a separate wireless working data communication unit (8) with a memory and with an energy supply unit. Here an improved tool configuration is enabled by means of a tool control.
    公开号:SE540080C2
    申请号:SE1350682
    申请日:2013-06-04
    公开日:2018-03-13
    发明作者:Fluhrer Andreas;Rieger Manuel
    申请人:Bosch Gmbh Robert;
    IPC主号:
    专利说明:

    it) 2D Mtis 3G Power tool with tool grain components provided for wired data communication or procedure for operating the tool.
    Description The invention relates to industrial and electrically driven tools, in particular screw systems or rivet systems.
    According to the state of the art, for example, screw systems are known.
    Such a screw system can, for example, be realized by means of the following devices: Superior screw control in base station, screw controllers) for one or more screw tools, one power unit according to the requirements for the power absorption of the spindles in the screw wrench, one or more screw spindles. The screw spindles usually comprise at least one output gear, a single-gear device and a motor. The output gear can be driven by the motor and underuse of the growth device. Competing for the screw control, an SPS pre-coordination of several screw systems can be provided. In addition, a further industry and peripheral such as printers, etc., may be provided to operate the screwdriver.
    The document WO âiïiüßiüßâzêê describes a portable screwdriver, which does not specify predetermined operating parameters performing the screwing processes. The operating sockets, on the other hand, are predetermined by a superior and by the screw tool spaced screw control. The operating parameters can be transferred from the screw guide through the radio tree to the screw tool. There are also known cabbage-bound solutions. in the control, both screw processes are deposited.
    The industrial tools are usually of modular design, in such a way that the associated tool components can be replaced by the user. This means attaiit after use, exemoeivis another output gear or any other component can be replaced rnot other and for this purpose better suited components.
    'JT 2G E JL !! 3G l ) After a replacement of the component, however, the tool control that drives the tool must be reconfigured. In this case, the information available on the type of the replacement tool component (s) must be read and re-programmed to the control by manual input.
    The disadvantage of this solution now lies in the fact that in the case of the new configuration the control is the feeds of the user, and a new configuration can be neglected by the user. The consequences are that the tool does not work as expected or even faster, as the components are not operated under their normal operating conditions.
    The invention avoids this disadvantage in that it maintains an electric tool and a suitable method for the operation of this tool.
    The tool according to the invention has at least one of the tool grain components comprising separately separated wirelessly operating data communication unit with a memory and with an energy supply unit. The power supply unit is realized in such a way that the energy required for the operation of the data grain communication network can be provided by means of inductive coupling to an external energy source included in the tool.
    The advantage of the invention now lies in the fact that a tool grain component arranged in the tool can be unambiguously identified by a tool guide. Even an eventual tool included tool set or adapter set can now be identified wirelessly by a tool controller. the tool set serves, for example, to fix a medium used by the tool in the pre-representation of the actual connection at the output gear. This means, for example, could be a screw for a screw tool, which has a screw tool set or a rivet for a rivet device, which does not have a rivet tool set. lfl Zfl h) tj: 3G åk - A tool control is thus able to self-configure itself with respect to the components present in the controlled tool or the tool sets used by the tool.
    Preferably, a tool according to the invention further comprises a communication means for communicating with the data grain communication unit. The communication means is capable of wirelessly retrieving data from the data communication unit or wirelessly storing data on the data communication unit and preferably supplying the data communication unit with energy as well as communication. the data communication unit is realized without external means.
    This simplifies the use and transport of the tool between the use olates.
    Ideally, the tool further comprises a tool control, which is capable of exchanging data with the communication means. The tool control then serves primarily for the control of the tool grain components, wherein at least one arlaetsoarameter given for at least one tool component is a predetermined and changeable means control. complex screwing processes can be performed thereby and the tool becomes largely independently usable in the field. preferably, means are provided which allow at least occasional wireless communication between the data communication unit and the communication medium. The communication means can thus receive and / or transmit data wirelessly from the data communication unit and exchange data with the control, the control preferably being designed in such a way that the reaction means on the signal registered by the data communication unit reads or describes arlaet parameters.
    The power tool according to the invention further comprises as a tool component a switching device, wherein the output gear can be driven by means of the drive device using the gearing device and wherein the gear unit arrangement comprises a data communication unit. Ailt after screw freezing can thus in advance, for example, the initiation phase of the sub-tool be checked whether the existing tool components are mechanically inserted for the pianized screw-freezing or not. preferably the tool according to the invention is also comprised of a torque receiver. This has the advantage that the output gear is adjustable while the drive device is underusing the torque receiver with respect to torque. preferably the torque recorder also comprises a data communication unit which can in fact be integrated in the automation processes already described above with respect to the screw process.
    Preferably, the tool according to the invention comprises an input antenna or a discharge antenna as additional tool components. In this case, a user interface with a superior controller is implemented. Although visualization and a data exchange of data relevant to the tool components are thus realizable, the input network or the output network preferably comprises at the same time a data communication network and can thus be integrated in the initiation process of the tool control. Alit after using enbet can then the most ski maneuvering cencebt be realized.
    The invention likewise comprises a method for the operation of an electric tool comprising several tool components for establishing a mechanical connection, which tool components at least deivis comprise a data communication unit. In a memory of the data communication unit, stored data is stored by one-tool control using a core communication medium, this data being processed along with the tool control to ensure the set operation of the tool.
    The tool is capable of self-configuring itself with respect to the tool components present in the tool or the tool sets used by the tool. Taking into account the tool component parameters exchanged with the tool core components, these tool component parameters can be used for oh ii) 2G NiUI configuration and implementation of the FJFGCEÉSSEÛ intended for tool control for execution.
    The invention comprises a further method, which relates to a tool set with a data communication unit, which is also constituted a tool component. The purpose and end of such a toolkit has already been clarified.
    The data originating from the tool set is processed by the tool control and in such a way that the tool effectively configures itself for a user and mechanically tool set on the tool for carrying out the intended mechanical connection, whereby a special program for the tool set used for the tool set is performed. In this way, fei can be avoided, which can occur in a manual configuration in the day-to-day operation, for example when selecting torque suitable for the tool set.
    Legs of the tool set-up data communication unit may also include the control program itself, part of the control program or information for correct control program through the screw control, so that the tool control depending on the tool set performs a control program specific to this tool set, especially with the tool built into the tool.
    As a tool, in principle all electrical tools come into question, which can be driven by means of a control, in particular screw tools, riveting tools, welding tools, punching tools and the like.
    The following detailed instructions refer only to the exterior specified only a screw tool. Figure i shows a tool with integrated tool control.
    Figure 2 shows a tool with external tool control. ti) h.) u: 3G šfñ Figure 3 shows the tool with integrated tool control and additional details for internal components.
    Figure 1 shows, for example, a battery-powered screw spindle, which at the same time also includes a means for mains operation. The screw spindle comprises a first tool component in the form of a drive gear 3 and a second tool component in the form of an output gear 1 and preferably further tool grain components such as a growth device 2, torque absorbers 4 and interlocking means connected to each other and so on. that a driving force nes the output gear 1 is made possible by the drive device 3.
    The tool components 1-5 comprise a separate and wirelessly operating data communication network 8 with a memory and with an energy supply network. The power supply network is realized in such a way that it can provide the displacement of the data communication energy unit with external energy.
    The housing also comprises a screw guide 9 for carrying out a screwing process which is too segregated, so that the screw spindle can be driven independently and independently of a parent screw guide.
    By means of the communication control 9 the communication medium 3 'is realized at least occasionally a communication connection 6 with at least one data communication unit 8 nos the tool grain components 1-5. This is indicated by the plotted line 5.
    At the output gear 1, a ht / isnvckei 1G with integrated data grain communication unit 8 for receiving screw medium is shown. If using the communication medium 7 and using a wireless communication path 6, the medium exchanges data with the screw guide 9 with respect to its own nature and with respect to the screw program to be performed. 1G 2G 3G Figure 2 shows an image identical to Figure 1 except that the screw tool is not driven by an internal screw guide 9 but by an external screw guide 9. not the communication medium Ir 'is integrated in the screw tool and communicates by means of a first data connection 11 with the external screw control. with a second data connection 6 with the tool grain components 1, 2, 3, 4, 5, 10.
    Preferably, in the case of communication means 7 or an RFID receiver and in the case of the data communication unit, it is an RF1D transmitter or a radio technology with comparable properties such as those of the RFB technology.
    Figure 3 shows a somewhat detailed hand screwdriver according to the invention. The hand screwdriver comprises a housing 3113. The housing 311) in turn comprises at least one output gear 311, a growth device 313 and a motor 314 and preferably also a torque receiver 312 and a rotor position indicator 315. and using the gear device 313. The housing 310 screw screw spindle comprises an integrated screw process control means 315 for carrying out also a completely separate screw process. The screwdriver in the hand screwdriver is occasionally drivable independently of an overall at least independent and screw process control 328.
    The hand screwdriver can communicate with this superior screw process controller 328 or also with other devices 331 eg through radio 329 access point, router etc) and exchange data with these devices 328, 331 (screw / program, performance data and the like. The screw process controller 315 comprises at least one microprocessor as components 317with memory 31k or a memory pickup device 31711 and preferably also measuring module 318 and a servo amplifier 319. the input of the measuring module 313 is connected to the output of the torque receiver 312 by means of a terminal 323. separate connection 327 ”.
    Förbindeisen 32 is a data bus, which enables a cross-communication between the components 313, 318, 319, 329, 321. The monitor 314 can, taking into account the output data of the sensor and the torque receiver 312, be controlled by a screw program executable by the microprocessor 317. Microprocessor 31 ejects the screw program from the memory šíïa after from a fl esn memory clip inserted in the memory capture memory šlïfb. Input feeders 329 which further comprise components include human-to-human (eg, screwdriver user through keyboards and dispensers), a machine-machine interface (e.g., screwdriver-PC through data interfaces), preferably by means of data processing. a color dšspiay) for the user.
    权利要求:
    Claims (14)
    [1]
    A power tool with bus for the production of a mechanical connection, comprising a first tool component in the form of a drive device (1) and a second tool grain component in the form of an output gear (li and preferably further tool grain components (2, 3, 4), which are arranged to each other and connected with each other inside the housing in such a way that a driving force of the output gear (1) is enabled by means of the drive device (3), the tool or at least one of the tool components (1S) comprising a separate wireless data grain communication unit (8) having a memory and an energy disturbance unit, the power supply unit is realized in such a way that this control unit provides the energy required for the operation of the data communication unit (S) by inductive coagulation into an energy line, characterized in that data is stored in the memory, which is processed to ensure the operation of the unit. pre-communication n with a control (Säll), to exchange with the control the data stored in memory, so that the control processes this data to guarantee a set operation of the tool, and wherein the tool is designed to based on the processing of the data stored in the memory by the control (9 11i effectively configure itself with respect to the tool components associated with the tool and the tool sets used by the tool.
    [2]
    An electric tool according to the preceding claim, wherein the tool further comprises a communication means (31) for communicating with the data communication unit (S), wherein communication means 0) is capable of wirelessly retrieving data from the communication unit (S) or wirelessly storing data on the data communication unit and preferably the data communication unit. the data communication unit (S) during the communication with energy.
    [3]
    An electric tool according to any one of the preceding claims, wherein the drive device (3) or the output gear (Ii) comprises a data communication unit (8), and 2f 3G, wherein further as a tool component a wax device (2) is provided with the data communication device. wherein the output gear (1) is drivable within the drive device (3) using the growth device (2).
    [4]
    A power tool according to any one of the preceding claims, wherein the tool is provided with an external control (11) or the tool comprises a competing control (9) capable of exchanging data with communication means (7).
    [5]
    Electrical tool according to claim 4, wherein the guide (9, 11) serves for the control of the tool core components (1-5), wherein at least one working parameter for a tool core component fit-S) rnedeist the control fš-ïï) can be changed and / or entered eiier predetermined.
    [6]
    A power tool according to claim 5, wherein means are provided so that communication means (7) from the data communication network (8) with respect to at least one operating parameter can wirelessly receive and / or transmit the particular data with the control.
    [7]
    Electrical tool according to claim 6, wherein the control is realized in such a way that the reaction on a signal registered from the data communication unit (S) by means of the core communication part (7) or describes the working parameter.
    [8]
    A power tool according to any one of the preceding claims, having a tool control, this data being tool component parameters, the one wherein the tool control is designed to use this data for configuration and implementation of a process control tool to perform execution.
    [9]
    An electric tool according to any one of the preceding claims, wherein a rotary receiver (4) is included in a data communication network (8), the output gear (1) being controllable by the driving force (3) using the torque tipper (4) with respect to the torque.
    [10]
    10. L !! 1G 2G 1G.
    [11]
    11.
    [12]
    12.
    [13]
    A power tool according to any one of the preceding claims, wherein a power supply unit and / or a power supply unit (326) are included as an additional tool component, provided with an interface to a user and also with an overriding controller, in particular also a visualization of data. for the user, the input unit and / or a preferably output unit (320) data communication unit being included. An electric tool according to any one of the preceding claims, wherein the tool is a single screw spindle and the housing further comprises a screw guide for re-implementing a separately separated screw process, so that the screw spindle is at least drivable independently and independently of a parent screw guide (11). 11) the data communication communication unit (S) underusing the communication medium (7) is an at least occasionally existing data exchange possibility realized. A power tool according to claim 11, wherein the screw control comprises a microprocessor, a measuring nozzle and a servo amplifier, the input to the measuring node module being connected to the output of a rotary receptacle of the tool and the servo amplifier being connected to the output of the tool. output data from the rotary actuator and rotary sensor receiver is a screw process predetermined by the microprocessor, taking into account the tool components. method for operating an electric tool for establishing a mechanical connection, wherein the tool has several tool core components (1-5), at least one of which comprises a data communication unit (S), wherein the saved data is processed by a data communication unit (S) of a tool ) to guarantee the set operation of the tool, characterized in that the data communication unit (8) communicates with a control (9, 11), so that 1G ii Boat)
    [14]
    14. 16. 17. 18. 1%. with the tool control, exchange the data stored in the memory, and wherein * the tool based on machining: of the data stored in the memory by the control (931) automatically configures with respect to the tool components present in the tool and the tool sets used by the tool, and wherein a the data communication unit may require the required energy to be supplied with an energy supply unit of the data communication unit (8) with inductive connection to an energy source. A method according to claim 13, wherein taking into account the data read from the memory of the data communication unit (S) of a tool component (1-Si, specific tool parameters are selected for configuring and executing the tool control for performing the process intended). in the memory of the data communication unit (8) data is stored by the tool control (9, 11 using a communication medium) according to a method according to any one of claims 13 to 15, the memory of the data grain communication unit (8) being stored with respect to the tool grain components (1-5). A method according to any one of claims 13 to 16, wherein the tool self-configures itself for the mechanical connection required for carrying out the mechanical connection set (13) A method according to claim 1, wherein the tool configures itself with respect to one of the output gears (1). eiler vridvinkei eiler manner eiler similar. Computer program with program code, which is configured to perform the steps according to the procedure according to any one of claims 13 to 18 or for implementation, while the computer program is executed on the tool control medium.
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    同族专利:
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    DE102012017376A1|2013-12-19|
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    CN103481230A|2014-01-01|
    CN103481230B|2018-07-03|
    引用文献:
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    DE102015000555A1|2015-01-20|2016-07-21|Frank Hohmann|Screwdrivers|
    DE102016202233A1|2016-02-15|2017-08-17|Robert Bosch Gmbh|TRANSPORT DEVICE FOR TRANSPORTING DEPTH TOOLS ON THE TOOL, TOOL AND METHOD FOR COMMUNICATING BETWEEN A TOOL AND A TRANSPORT DEVICE|
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    WO2017216700A1|2016-06-13|2017-12-21|Scs Concept Italia Srl|System and method for managing data-exchange torque wrenches|
    ITUA20164313A1|2016-06-13|2017-12-13|Scs Concept Italia Srl|Refillable torque wrenches, key and charging base and management method|
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    DE102019116291A1|2018-09-26|2020-03-26|Wiha Werkzeuge Gmbh|Handheld screwdriver and method for setting a parameter of a handheld screwdriver|
    法律状态:
    2022-01-25| NUG| Patent has lapsed|
    优先权:
    申请号 | 申请日 | 专利标题
    DE102012011585|2012-06-13|
    DE201210017376|DE102012017376A1|2012-06-13|2012-09-01|Electrical propelled tool i.e. rechargeable battery-claimant screw jack, has tool components provided with power supply unit that enables data communication unit to generate power using inductive coupling|
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