CN109909959B - Additional module for use with work equipment and work equipment - Google Patents

Abstract

The invention relates to an add-on module (180) for use with a working device (100), comprising a functional device (183, 184) which provides at least one additional function for the working device (100), wherein the working device (100) comprises an energy supply unit (150) which can be mechanically and electrically connected to a housing (140) of the working device by means of at least one interface (151, 151 ', 152'), wherein the add-on module (180) can be mechanically and electrically connected to the housing (140) of the working device (100) using a housing-side part (181, 182) of the at least one interface, wherein the add-on module (180) can be mechanically and electrically connected to the energy supply unit (150) using a housing-side part (181 ', 182').

Description

Additional module for use with work equipment and work equipment

Technical Field

The invention relates to an add-on module for use with a working device, having a functional means providing an additional function for a movable working device, and to such a working device and to an application of such an add-on module or working device.

Background

In assembly operations, in particular in the industrial sector, work devices, in particular movable work devices or hand tools, such as riveting devices, clinching devices, are usedPunching, screwing, drilling and welding devices, which can be easily and flexibly handled. For this purpose, such a working device can be lifted, used and replaced again, for example, by a user.

In industrial production, for example in motor vehicle production, fixed work devices or devices are also used as screwing devices, punching devices, clamping devices, riveting devices or welding devices.

For such a working device, a certain additional function, such as a positioning function, can be provided, so that, for example, the process reliability can be increased.

Disclosure of Invention

According to the invention, an add-on module for a working device is proposed, as well as a working device of this type and an application of such an add-on module or working device. Advantageous embodiments are the subject matter of the following description.

The add-on module according to the invention has a functional device which provides at least one additional function for the working device. The additional module is provided for use with a working device having an energy supply unit that can be mechanically and electrically connected to a housing of the working device by means of at least one interface. The add-on module itself has an interface section on the energy supply unit side (for co-acting with an interface section on the housing side on the housing) and an interface section on the housing side (for co-acting with an interface section on the energy supply unit side on the energy supply unit). The additional module can be mechanically and electrically connected to the housing of the movable working device (by co-action with the housing-side part of the interface on the housing) when using the at least one interface-side part of the energy supply unit, and can be mechanically and electrically connected to the energy supply unit (by co-action with the energy supply-unit-side part of the interface on the energy supply unit) when using the at least one interface-side part of the interface. The additional module is furthermore configured to provide an electrical connection between the housing-side and energy supply unit-side portions of the at least one interface for making an electrical connection.

The at least one additional function now comprises a scanning function for reading information. In particular, the scanning function is provided here for reading optical codes, in particular bar codes and/or matrix codes. For this purpose, the scanner is therefore provided or installed, in particular, in an add-on module. In this case, a suitable orientation should be noted in order to be able to read the information as effectively as possible, for example by means of an optical code provided on the workpiece to be processed. The information contained therein may include: such as the workflow to be performed or parameters to be set, such as tightening torque, etc.

In order to provide additional functions for the working device, such as a positioning function, the respective module can be arranged outside the housing on a conventional working device. However, the energy supply of the additional module, which may be necessary, is problematic. Furthermore, such modules arranged outside the housing may often be disturbing or interfering when using the working equipment. Another possibility is to integrate additional functions or modules directly into the housing of the working device, for example in the case of a scanning function. However, high design outlay is necessary here. Furthermore, an additional product number must be assigned to the modified variant of the working device and taken into account in the warehouse keeping.

The proposed add-on module now provides such a scanning function for the working device and can be incorporated very easily here between the housing of the working device and the energy supply unit of the working device, in particular a battery. The additional module can be shaped in such a way that it is adapted to the working device or its housing and the energy supply unit with respect to the external contour. In particular, the addition can also take place later and the additional module can also be removed again. Furthermore, the additional module can also be used for different work apparatuses, for example. Since, in addition, the energy supply of the working device is ensured by the energy supply unit, no restrictions occur when the working device is applied or when the working device is operating.

Preferably, the functional device is electrically operable, and the additional module is designed to supply electrical energy by means of an energy supply unit of the working device when the additional module is connected to the energy supply unit. In this way, the energy supply unit of the working device can also be used simultaneously for the energy supply of the additional module or of its functional device. No additional energy supply is necessary here. This is used here: i.e. by the additional module, electrical contact for the energy supply unit is provided by nature. A costly solution, for example in a module arranged outside the housing, is not necessary here.

A data interface is advantageously provided, by means of which data can be exchanged between the functional device and the working device. In this way, the additional module can be used, for example, as a data memory, or can provide various other additional functions that require the interaction of the additional module or functional device with the work device or a control unit of the work device.

Advantageously, the at least one additional function further comprises a positioning function for positioning the working device. In particular, the functional device for providing a positioning function described here can have a transmitting unit and/or a receiving unit or a transmitting and receiving unit. The proposed add-on module is particularly advantageous for such a positioning function, since for the positioning function or the transmitting or receiving unit, usually an energy supply is necessary, which, as already explained, can be provided particularly easily and effectively by the application of the energy supply unit of the working device. Such a positioning function can be distributed, for example, in a workshop or the like over a plurality of base stations which can position the additional modules via the transmission unit. For this purpose, electromagnetic waves of a suitable frequency can be used, for example. A particular advantage of the additional module is here: for example, the positioning function can be provided later on for the working device, and the additional module and thus the positioning function can furthermore also be used in a different working device.

As a further preferred additional function is a lighting function, for example in the case of the use of LEDs. Thus, the processing of objects can be facilitated with poor visibility. As an additional function, a data interface, in particular a USB interface, for external devices is likewise advantageous. Thus, the data may be stored externally and/or read from the outside. It is also conceivable that this function is used to set certain parameters of the working device. For example, further information about the function read by means of the scanning function may also be obtained.

Likewise, a sensor function for detecting environmental conditions is considered to be a further preferred additional function, wherein the additional module is then provided in particular for storing the detected sensor data and/or transmitting it to the working device and/or to an external data processing unit. For such sensor functions, one or more corresponding sensors may be provided in an add-in module for a suitable sensor system (Sensorik). As environmental conditions, for example, temperature, humidity, impact, vibration, etc. are considered here, and then there are corresponding sensors for each. Thus, for example, the use of the working device can be adapted to the current conditions. By transmitting data and if necessary by means of a central data detection by an external data processing unit (e.g. a server), it is possible to thus also detect information for optimizing the subsequent workflow, for example.

It should be noted that there may be additional described functions other than the scanning function.

The working device is advantageously designed as a riveting device, a punching device, a clamping device, a screwing device, a drilling device or a welding device, in particular as a movable working device. These types of working devices are working devices which are frequently used in industrial installations, so that particularly high process reliability, which can be achieved by such additional modules, is desirable here. In particular, the working device is configured as a battery-operated device.

Advantageously, the energy supply unit is configured as an energy storage unit or as a component for connection to an electrical energy supply network. The energy storage unit can be, for example, a battery (primary or secondary cell) or in particular a storage battery.

The working device according to the invention, in particular configured as a movable working device, has an energy supply unit which can be mechanically and electrically connected to a housing of the working device by means of at least one interface, and an additional module according to the invention.

Regarding the advantages and advantageous developments of the working device according to the invention, reference is made to the embodiments described above for the additional module in order to avoid repetition.

The use according to the invention of the additional module or the working device according to the invention is in the automotive industry or in the aeronautical and astronautical industry. In these industrial fields too, high process reliability is expected because of the very high reliability requirements (nicht zuletzt). As can be seen from the advantages explained in detail, this process reliability can be achieved by the application of the add-on module or the working device. Furthermore, the proposed solution is particularly cost-effective without jeopardizing the process reliability.

Other advantages and embodiments of the invention will be apparent from the description and drawings.

Of course, the features mentioned above and yet to be explained below can be used not only in the respectively described combination, but also in other combinations or alone without departing from the framework of the invention.

Drawings

The invention is schematically illustrated by means of embodiments in the drawings and is described in detail hereinafter with reference to the drawings.

Fig. 1 shows a working device with which an additional module according to the invention can be used;

fig.2 shows, in a preferred embodiment, the working device from fig. 1 together with an additional module according to the invention;

fig. 3 shows in a preferred embodiment a working device according to the invention;

Fig. 4 shows in a further preferred embodiment a working device according to the invention.

Detailed Description

Fig. 1 shows a working device 100', which is in the form of a movable screwing device, in particular a middle-grip screw machine (Mittelgriffschrauber). It will be appreciated that the mobile screwing device can also have other shapes, in particular in the form of, for example, an angle wrench (Winkelschraubers), which then has, for example, two handles and an angled fitting head, as will be correspondingly applicable in the following.

The middle-grip screw machine 100 'has a housing 140, an assembly head 120 and actuating keys for actuating the screwing function of the middle-grip screw machine 100', i.e. for executing a working process145, Wherein the middle grip screw machine 100' is provided for the working process. In the assembly head 120, depending on the design of the assembly head, for example, a wrench (Bit) or a screw (Schraube) can be inserted directly.

Furthermore, a control unit 110 is provided, on which, for example, an application program is stored and which has the necessary electronics for operating the middle-grip screw machine 100'. The middle-grip screw machine 100' may in particular be a so-called measuring screw machine, i.e. a torque or tightening torque (Anzugsdrehmomente) may be predefined, for example, and monitored, checked and/or recorded together.

Furthermore, an energy supply unit or energy storage unit 150 in the form of a battery is provided, which can be connected both mechanically and electrically to the housing 140 of the middle grip screw machine 100'. For this purpose, electrical interfaces (SCHNITTSTELLE) 151, 151 'and mechanical interfaces 152, 152' are provided. The battery 150 has energy supply-side parts 151 and 152, and the housing 140 has housing-side parts 151 'and 152'. As a result of the combined illustration, the energy supply unit-side and housing-side parts of the interface overlap accordingly. For a more accurate illustration and description, reference is made in this regard to fig. 2.

The middle-grip screw machine 100' may also have other energy supply means instead of the battery 150 as the energy storage means. For example, a plug can be provided as a component for connection to an energy supply network, which plug can be mechanically and electrically connected to the middle grip screw machine 100'.

It is also conceivable here for the cable not to be used (only) for energy supply, but also for data transmission and/or for suspension (for example on a pulley block). In such a case, it may be provided with, for example, a power cable in addition to an energy storage unit, such as a battery, or a component for connection to an energy supply network.

In the case mentioned, it can also be a fixed screw machine, for example, which can be lifted for use, but which is left on the working point and if appropriate also suspended, because of the cable or cables.

Fig. 2 shows the middle-grip screw machine 100' of fig. 1 again, but with the battery 150 separated from the housing 140. Here, the electrical or mechanical interface, the energy supply unit-side parts 151 and 152, and the housing-side parts 151 'and 152' can now also be seen separately.

The electrical interface 151, 151' can be, for example, a plurality of contact pairs that in combination provide an electrical connection between the battery 150 and the housing 140 (together with corresponding electrical devices or electronics).

The mechanical connection 152, 152' can be, for example, of the type of a groove-spring connection, which provides a form-locking connection. For this purpose, the battery 150 can be inserted laterally, for example, at the lower end of the housing 140.

Furthermore, an additional module 180 according to the invention is shown in a preferred embodiment, which is arranged between the housing 140 of the middle grip screw machine 100' and the battery 150.

The add-on module 180 now has an electrical and mechanical interface part which is designed in such a way that it can be connected to a corresponding energy supply unit-side part of the battery or to a housing-side part of the middle-grip screw machine 100'. The portion 181 here corresponds to the energy supply unit-side portion 151, the portion 182 corresponds to the energy supply unit-side portion 152, the portion 181 'corresponds to the housing-side portion 151', and the portion 182 'corresponds to the housing-side portion 152'.

In this way, the additional module 180 can be connected to the housing 140 as precisely as the battery 150 is connected to the housing 140. The battery 150 can in turn be connected to the add-on module 180 as precisely as the battery 150 is connected to the housing 140.

In this way, in a preferred embodiment, a working device 100 according to the invention is produced, which here takes the form of a middle-grip screw machine, as is shown in fig. 3. The description of the individual components is referred to here with reference to fig. 1 and the associated description.

Furthermore, by means of an electrical connection 185 between the portions 181 and 181' in the additional module 180, it is possible to realize: the energy supply of the middle grip screw machine is ensured by the accumulator 150.

The add-on module 180 now has a scanning function as an add-on function, here represented by a scanner or scanning unit 183. Thus, as indicated schematically, in the example shown, the code, here the matrix code 101, is detected and the information contained therein is read. The scanning unit 183 is here powered by a battery 150.

Furthermore, the add-on module 180 has a transmission unit 184 as part of the functional device, which can be supplied with energy by the battery 150 and provides a positioning function. For this purpose, the signals emitted by the transmitting unit 183 can be received, for example, by means of a base station, of which two base stations 190, 191 are shown here by way of example.

Fig. 4 shows a working device 200 according to the invention in a further preferred embodiment, which is exemplary in the form of a movable blind riveting device, in particular an intermediate-grip riveting device.

The riveting device 200 has a housing 240, a fitting head or nozzle 220 and actuating keys 145 for actuating the riveting function of the riveting device 200, i.e. for executing a working process for which the riveting device is provided.

Furthermore, a control unit 210 is provided, on which, for example, an application program is stored and which has the necessary electronics for operating the riveting device 200, if appropriate also a display. The riveting device 200 can in particular be a so-called measuring riveting device, i.e. for example the force acting on the tie rod (Zugstange) and thus on the mandrel of the rivet or on the rivet can be predefined and monitored, checked and/or recorded together by means of the force sensor 215. By means of the displacement sensor 216, for example, a displacement which is passed by the mandrel during the riveting process can also be detected.

Furthermore, an energy supply unit or energy storage unit 250 in the form of a battery is provided, which can be connected both mechanically and electrically to the housing 240 of the crimping device 200. For this purpose, electrical interfaces 251, 251 'and mechanical interfaces 252, 252' are provided. In this case, the accumulator 250 has energy supply-side parts 251 and 252, and the housing 240 has housing-side parts 251 'and 252'. As a result of the combined illustration, the energy supply unit-side and housing-side parts overlap accordingly. For a more accurate illustration and description, reference is made in this regard to fig. 2, since the interface can be constructed in the same way here.

Note that the caulking apparatus 200 can also have other energy supply units instead of the storage battery 250 as energy storage units. For example, a plug can be provided as a component for connection to an energy supply network, which plug can be mechanically and electrically connected to the riveting device 200.

It is also conceivable here for the cable not to be used (only) for energy supply, but also for data transmission and/or for suspension, for example on a pulley block (Seilzug). In such a case, in addition to the energy storage unit, such as a battery, or a component for connection to an energy supply network, it may also be provided with a power cable, for example.

In the case mentioned, it can then also be a fixed riveting device, for example, which can be lifted for use, but which is suspended if appropriate because the cable or cables remain at the working point.

Furthermore, by means of an electrical connection 285 between the portions 281 and 281' in the additional module 280, it is possible to realize: the energy supply of the riveting device is ensured by the accumulator 250. Furthermore, the additional module 280 has a transmission unit 284 as part of the functional device, which can be supplied with energy via the battery 250 and provides a positioning function.

The add-on module 280 now has a scanning function as an add-on function, here denoted by scanner or scanning unit 283. The functional way of which corresponds to the scanning function or the scanning unit 183 according to fig. 3. Reference is also made to the description therein in this regard.

Further, a sensor 284 is exemplarily provided as another part of the functional device, with which sensor, for example, a temperature can be detected as an environmental condition. However, it is likewise possible to provide other or further sensors as already mentioned at the outset. Furthermore, a data interface 286 for an external device 290, for example a USB stick, is provided as a further additional function and thus as part of the functional means. For these other additional functions, energy supply via the battery 250 may also be provided.

It should also be noted that the additional functions presented with reference to fig. 3 and 4 are also replaceable or may be used with any of the presented additional modules and additional modules for other movable work equipment, and only a few such additional functions for additional modules are presented accordingly herein for the sake of clarity.

Claims (13)

1. An add-on module (180, 280) for use with a working device (100, 100', 200), the add-on module having a functional means (183, 184, 283, 284, 286) which provides at least one additional function for the working device (100, 100', 200), wherein the working device (100, 100', 200) has an energy supply unit (150, 250) which can be mechanically and electrically connected to a housing (140, 240) of the working device by means of at least one interface (151, 151', 251', 152', 252 '), wherein the add-on module (180, 280) can be mechanically and electrically connected to a housing (140, 240) of the working device (100, 100', 200) using a part of the energy supply unit side of the at least one interface, wherein the add-on module (180, 280) can be mechanically and electrically connected to the energy supply unit (150, 250) using a part of the housing side of the at least one interface, wherein the additional module (180, 280) can be mechanically and electrically connected to the housing (240) by means of the at least one interface (151, 251, 152', 252'), wherein the additional module (180, 280) can be electrically connected to the housing (180), wherein the data connection between the at least one interface (283) and the at least one additional module (180), the additional module (285) can be provided by means of the interface, the data connection, the function (283) can be electrically connected to the at least one interface (283), the part of the energy supply unit (180), the energy supply unit) and the energy supply unit (200) can be mechanically and electrically connected to the housing 100', 200) are connected to each other.

2. An add-on module (180, 280) according to claim 1, wherein the scanning function is arranged for reading an optical code (101).

3. The add-on module (180, 280) according to claim 1 or 2, wherein the functional device (183, 184, 283, 284, 286) is electrically operable and wherein the add-on module (180, 280) is configured for: when the additional module (180, 280) is connected to the energy supply unit (150, 250), the functional device (183, 184, 283, 284, 286) supplies electrical energy by means of the energy supply unit (150, 250) of the working device.

4. The add-on module (180, 280) according to claim 1 or 2, wherein the at least one additional function further comprises a positioning function and/or a lighting function for positioning the working device (100, 100', 200) and/or a data interface for an external device (290).

5. The add-on module (180, 280) according to claim 1 or 2, wherein the at least one additional function further comprises a sensor function for detecting an environmental condition, wherein the add-on module (180, 280) is in particular arranged for storing and/or transmitting detected sensor data onto the working device (100, 200) and/or an external data processing unit.

6. The add-on module (180, 280) according to claim 1 or 2, wherein the working device is configured as a riveting device, a punching device, a clinching device, a screwing device, a drilling device or a welding clamp.

7. An add-on module (180, 280) according to claim 1 or 2, wherein the energy supply unit is configured as an energy storage unit or as an assembly for connection to an electrical energy supply network.

8. An add-on module (180, 280) according to claim 1, wherein the scanning function is arranged for reading bar codes and/or matrix codes.

9. The add-on module (180, 280) of claim 4, wherein the data interface for an external device (290) is a USB interface.

10. An add-on module (180, 280) according to claim 1 or 2, wherein the working device is configured as a movable working device.

11. A working device (100, 200) having an energy supply unit (150, 250) which can be mechanically and electrically connected to a housing (140, 240) of the working device by means of at least one interface (151, 151', 251', 152', 252'), the working device having an add-on module (180, 280) according to any of the preceding claims.

12. The working device (100, 200) according to claim 11, wherein the working device (100, 200) is a movable working device.

13. Use of an add-on module (180, 280) according to any one of claims 1 to 10 or a working device (100, 200) according to claim 11 in the automotive industry or in the aeronautical and astronautical industry.