SYSTEM FOR VEHICLE BODY CONSTRUCTION

Abstract

The invention relates to a system for vehicle body construction, comprising a central control unit (1) and at least two electrically operated actuation devices (2), which each have their own control unit (2.1) for controlling the movement of said actuation devices. According to the invention, the control unit (2.1) of one of the two actuation devices (2) is connected to the central control unit (1) via the control unit (2.1) of the other of the two actuation devices (2).

Claims

1.-12. (canceled)

13. A system for vehicle body construction, comprising a central control unit and at least two electrically operated operating devices, each device has its own control unit to control movement; and the control unit of one of the two operating devices is connected to the central control unit via the control unit of the other one of the two operating devices.

14. The system according to claim 13, wherein the control units of the operating devices are data processing units that send, receive and process data packets.

15. The system according to claim 13, further comprising an electrical cabling either between the central control unit and a control unit of an operating device and/or between control units of two operating devices to transfer information as well as supply power and preferably for integrated safety functions, in particular a STO safety function.

16. The system according to claim 13, wherein the control unit of an operating device has two electronic interfaces, the interfaces either connect to the central control unit and a control unit of another operating device, or connect to a control unit of another operating device and a control unit of a third operating device.

17. The system according to claim 13, further comprising a graphic user interface for setting variables, such as power, torque, angular position and/or speed of the operating device.

18. The system according to claim 17, wherein the graphic user interface is stored as software on the central control unit.

19. The system according to claim 13, wherein the operating device has a worm gear including a worm shaft and worm wheel in order to realize a self-locking effect.

20. The system according to claim 13, wherein an electric motor operates the operating device, and in each motor position, the control unit detects either a position, a power, a torque, a speed and/or a temperature of the electric motor.

21. The system according to claim 20, wherein the electric motor is an alternating voltage servomotor.

22. The system according to claim 13 wherein the operating device is embodied to be grease-lubricated.

23. The system according to claim 14 wherein in order to realize safety functions, in particular a STO safety function, each data processing unit of the control units and/or an additional data processing unit, that is additionally provided at each operating device, is optionally embodied with software.

24. The system according to claim 13 wherein the central control unit and/or the control units is or are optionally embodied, respectively, for evaluating optionally possible error causes and/or process-relevant information of the operating device.

Description

DRAWINGS

[0015] The drawings described herein are for illustrative purposes only of selected embodiments and not all possible implementations, and are not intended to limit the scope of the present disclosure.

[0016] FIG. 1 is a schematic view of a system according to the disclosure for vehicle construction with a central control unit and three operating devices; and

[0017] FIG. 2 is a partially section view of an operating device for the system according to FIG. 1.

DETAILED DESCRIPTION

[0018] The system for vehicle construction illustrated in FIG. 1 includes a central control unit 1 and of at least two (three are illustrated) electrically operated operating devices 2. Each device has its own control unit 2.1 that controls movement in a manner that is known per se.

[0019] With reference to the mentioned operating device, with reference to FIG. 2 the operating device has a head piece 8 to rotatably support an operating element 9. Here, for example a clamping arm is shown. However, other head pieces including positioning, centering or pivoting characteristics, for example, are also possible. Thus, in particular, they include a positioning or centering mandrel or a pivot arm. The operating element 9 is operatively connected to an electric motor 7 arranged on the head piece 8, via a gear 10 arranged in the head piece 8. A torque is generated by the electric motor 7. Thus, according to a particularly preferred manner, the motor 7 is an alternating voltage servomotor. See https://de.wikipedia.org/w/index.php?title=Servomotor&oldid-163347715. Special electric motors, that allow for the control of the angular position of their motor shaft as well as of the rotational speed and acceleration, are identified as servomotors. The torque is transferred to the operating element 9 via the gear 10.

[0020] The head piece 8 is formed by two half shells. In FIG. 2, the electric motor 7 is shown in full side view. The head piece 8, in contrast, is shown in an installation situation. Here one of the two half shells is disassembled. Thus, the operating device can be seen in FIG. 2 with the open head piece 8. As can be seen, the dividing plane of the half shells runs parallel to the axis of rotation of the electric motor 7. Also provided in a particularly preferred manner, the bearings of the gear 10 are arranged in one or the dividing planes, respectively, of the head piece 8, that is formed of two half shells.

[0021] In a particularly advantageous manner, the operating device is embodied in a grease-lubricated and not oil-lubricated manner. Thus, the operating device is particularly small or at least as small as comparable pneumatic operating devices, respectively. The complete design in the case of a grease-lubricated operating device follows from the fact that the spaces for the components, that are to be lubricated, need to be kept small. Thus, the grease does not accumulate at a location, that does not need to be lubricated at all.

[0022] It is now essential for the system for vehicle body construction (see FIG. 1 again in this respect) that the control unit 2.1 of one of the two operating devices 2 is connected to the central control unit 1 via the control unit 2.1 of the other one of the two operating devices 2.

[0023] In the exemplary embodiment illustrated in FIG. 1, this proviso is thereby implemented, as can be seen, in that only a single operating device 2, which is identified as the first operating device, is connected to the central control unit 1. The one identified here as second operating one, is connected to the first one. The operating device identified here as third one, is connected to the second operating device. According to the disclosure, as already mentioned, the signal arriving from the central control unit 1 is thus looped through from one to the next operating device.

[0024] As already explained further above, control units 2.1 of the operating devices 2 are embodied as data processing units. The units 2.1 send, receive and process data packets. The control units 2.1 are thus embodied as full computers. Software is installed, that can also be identified as so-called firmware. See https://de.wikipedia.org/w/index.php?title=Firmware&oldid=166082869. For operating the operating device, Firmware is understood to be software, that is embedded in electronic devices. Thanks to these data processing units, it is possible in each motor position, that the control unit 2.1 is embodied to detect either a position, a power, a torque, a speed and/or a temperature of the electric motor 7.

[0025] Based on the use of data processing units, it is moreover, and in contrast to the above-mentioned DE 201 21 630 U1, also possible for the first time to embody the gear 10 between the electric motor 7 and the operating element 9 without an end position querying device or without a device for querying the end position, respectively.

[0026] As follows from FIGS. 1 and 2, the control unit 2.1 is accommodated in an auxiliary housing 12. The auxiliary housing 12 is arranged on the electric motor 7.

[0027] As illustrated in FIG. 1, an electrical cabling 3 formed of a plurality of cable bundles, runs in parallel, either between the central control unit 1 and a control unit 2.1 of an operating device 2 and/or between control units 2.1 of two operating devices 2 to transfer information, preferably LAN-based. In this respect, see https://de.wikipedia.org/w/index.php?title=Local_Area_Network&oldid=168795260. The power supply is preferably 24 Volt direct current. The operating device 2 in this case, and, if the electric motor 7 is preferably operated with alternating current, as mentioned above, has a converter for converting the direct current into alternating current. Thus, it is possible, due to this proviso, to connect the central control unit 1 and the operating devices 2 in the easiest way imaginable. This is because only one cable bundle needs to, in each case, be pulled from the central control unit 1 to the first operating device 2. A cable bundle is drawn from the first operating device to the second operating device 2. A cable bundle is drawn from the second operating device to the third operating device 2.

[0028] Furthermore, provided in a particularly preferred manner, the system according to the disclosure on or in particular the central control unit 1, respectively, the operating device 2 and the cabling 3, also called hybrid cabling, in particular hybrid cabling with STO, are embodied to fulfill the so-called stop category 1 (STO Safe Torque Off) according to EN 60204, (see also https://de.wikipedia.org/w/index.php?title=Sicherheitsfunktion&oldid=166726912), and also DIN EN 61800-5-2. Thus, either the central control unit 1, the operating device 2 and/or the cabling 3 also have integrated or drive-integrated safety functions, respectively. Thus, risks originating from the running system are maximally reduced.

[0029] More concretely, in a particularly preferred manner, in order to realize safety functions, in particular a or the STO safety function, respectively, each data processing unit of the control units 2.1 and/or an additional data processing unit, which is additionally provided at each operating device 2, is optionally embodied with a software or that a software of this type is installed, respectively. This measure leads to a self-sufficiently functional safety function of each individual operating device 2. The integrated STO safety function can stop the electric motor 7 abruptly, namely completely independently of possible information coming from the central control unit 1. The safety function can furthermore be realized particularly well together with an operating device 2 comprising a self-locking gear, in particular a worm gear, that will be mentioned below.

[0030] In this context the central control unit 1 and/or the control units 2.1 is or are optionally embodied, respectively, for evaluating optionally possible error causes and/or process-relevant information of the operating device 2.

[0031] It is furthermore provided (see FIG. 1) that the control unit 2.1 of an operating device 2 has two electronic interfaces 4. The interfaces 4 are preferably identically embodied and which are preferably also attached to a or the auxiliary housing 12, respectively, that is arranged on the electric motor 7. The interfaces 4 connect to the central control unit 1 and a control unit 2.1 of another operating device 2, or connect to a control unit 2.1 of another operating device 2 and a control unit 2.1 of a third operating device 2.

[0032] As also already explained above, a graphic user interface for setting variables, such as either power, torque, angular position and/or speed of the operating device 2, is further provided in a particularly preferred manner. The graphic user interface is furthermore either stored as software (firmware) on the central control unit 1 and/or also as so-called App. (See also https://de.wikipedia.org/w/index.php?title=Anwendungssoftware&oldid=168914545) on a mobile computer. For example, a tablet computer or a smartphone, in a particularly preferred manner.

[0033] So that the operating device 2 remains in the respective position when the power supply is turned off (for whatever reason whatsoever), the operating device has a worm gear. The worm gear includes a worm shaft 5 and worm wheel 6 in order to realize a self-locking effect, see also https://de.wikipedia.org/w/index.php?title=Schneckengetriebe&oldid=166434662). Due to this worm gear, it is possible that the operating device 2 has an angle of rotation of 360.

[0034] It is furthermore provided in a preferred manner that either an axis of rotation of the worm shaft 5 is embodied to run parallel and/or an axis of rotation of the worm wheel 6 is embodied to run perpendicular to an axis of rotation of the electric motor 7.

[0035] As suggested and illustrated in FIG. 2, a spur gear 11 is arranged between the electric motor 7 and the worm shaft 5.

[0036] Finally, it is provided in a preferable manner (but not illustrated separately) that the worm wheel 6 is connected to one of the operating element 9, respectively, or to the axis of rotation, respectively, by a spline.

[0037] As can be concluded from the above explanations, the system according to the disclosure for the vehicle construction belongs to a completely new generation of such systems. The new concept provides an operating comfort,that could not be reached to date. It starts with a very simple cabling 3 of the operating devices 2 and ends with the user-friendly settability of the total system via a graphic user interface, for example on a mobile end device, such as tablet computer.

[0038] The foregoing description of the embodiments has been provided for purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure. Individual elements or features of a particular embodiment are generally not limited to that particular embodiment, but, where applicable, are interchangeable and can be used in a selected embodiment, even if not specifically shown or described. The same may also be varied in many ways. Such variations are not to be regarded as a departure from the disclosure, and all such modifications are intended to be included within the scope of the disclosure.