The invention relates to a motor-driven working device, in particular in the form of an electrically operated machine tool or an electrically operated working apparatus, according to the preamble of claim 1.
Working devices of the aforementioned kind in the form of saws are occasionally operated in practice with auxiliary devices, via which the user is supported in aligning the working device to the working line to be followed on the side of the material to be worked on. This occurs with optical as well as mechanical means.
The aim underlying the invention is to expand the use of such auxiliary devices to other working devices as well as to make such working devices more flexible in their usages through the use of such auxiliary devices.
This is achieved by using such auxiliary devices with working devices, which are configured as machine tools in the form of milling machines, rodents, tackers, shears or the like. That is to say said working devices are configured as machine tools in which a prioritization of a direction of work is not contingent upon the form of the working means. Furthermore, said aim is achieved by using said auxiliary devices with working apparatuses, in which such machine tools are, for example, integrated, such as stationary milling machines, or with working apparatuses like metering apparatuses for applying adhesive beads or sealing seams, with welding robots, with cutting tools, such as laser cutters or water jet apparatuses or with apparatuses for local plasma pretreatment. In the case of such working apparatuses, the working means are in fact frequently configured with regard to the respective conditions of use. As a rule, said working means do not, however, for their part specify any direction of work as a result of their design as is, for instance, the case with saw blades.
The auxiliary device comprises a sensor system, which is aligned on a detection surface that results from the position of the sensor system with respect to the working means. A working line to be followed by said working means is detected on the side of the material being worked on via the sensor system. Said auxiliary device furthermore includes a signal processing unit for the characteristic data acquired by said sensor system, said characteristic data being processed in a control and actuating unit and being used for the alignment of the working device and or the working means on the working line.
A working device configured in this manner is basically flexible with regard to the work application and therefore to be employed as a hand-guided, hand-held or mechanically guided working device. In the latter case, the working device is employed particularly with stationary apparatuses as well as with transportable table apparatuses.
Regardless of the function of auxiliary device, the sensor system can be a structurally integrated component of the working device or also be disposed separately from said device in order to facilitate work along a predetermined working line. In this way, the respective detection surface and thereby the working line running therethrough can be most effectively detected. The visualization of the operation, which may be required, for example, by means of corresponding informational graphics, preferably takes place however in each case linked to the working device in a field of view for the user that is associated with the said device. In accordance with the appropriate degree of visualization, the respective working means is if need be correspondingly aligned to the working device. This alignment process applies, for example, to the case of a laser cutter, whereby the optics are correspondingly aligned, or to that of a welding robot, whereby the weld head is correspondingly adjusted.
If work is done with auxiliary devices, which as a visualization aid only provide information to the user about how he is to guide a respective working device so that the working means in each case operates along the predefined working line, the user then for the most part has to correspondingly guide the working device.
If the auxiliary device is configured and used according to the idea of the invention to the effect that the working means shifts relative to the working device held by the user and is aligned on the working line, the user performs essentially only the function of supporting said working device and while oriented on the direction of work of shifting, in particular of displacing, said working device in said direction of work. A semi-autonomous operating method is then in effect.
Depending upon the configuration and function of the working means, not only an alignment of said working means on the working line is possible but if need be also an adjustment which changes the operating method, thus, for example, changing the cross-sectional area of the outlet of an application nozzle or the like.
In the case of saws in their different embodiments and applications, as, for example, in the form of hacksaws or band saws as under-table or above-table apparatuses or as scroll saws, the working means is in each case an element which determines the direction of work on account of its flattened form and its sawing plane, which extends in the direction of work and therefore in the sawing direction. The alignment on the working line is then carried out by rotating the saw blade. In accordance with the respective angle of rotation, the forward motion in the sawing direction takes place along the working line. The operator in supporting the working device complies with this input requirement.
Working means, which themselves do not work in a directionally oriented fashion, like, for example, in the case of milling machines having milling cutters working with rotational removal motion, cannot determine the respective direction of work but have to in turn be guided with respect to the working device such that they follow a respective working line if on the part of the user the working device is only—roughly oriented to the direction of work specified by the working line—to be supported and moved.
In this context, provision is made according to the invention for the working devices, be they in the form of machine tools or working apparatuses, which work with such working means, to provide the working means with an adjustability with respect to the working device which is transverse to the respective working line, wherein this adjustability can take place linearly or in a pivotable manner and wherein with regard to a pivotable arrangement of the working means with respect to the working device, pivotal positions are worthy of consideration for the straight-ahead direction of work, in which the straight line connecting the working means to the pivot axis extends in the straight-ahead direction of work and is at an angle thereto. Corresponding to the angular position resulting with respect to the straight-ahead working position, larger or smaller pivot paths in a transverse direction result about the respective zero position with respect to the respective pivot angle, whereby the precision of the guidance along the working line can be influenced particularly since the respective lateral forces on the part of the user have to be absorbed in a supporting manner.
In the case of working apparatuses like welding robots, apparatuses for plasma pretreatment or also in the case of metering apparatuses for applying adhesive beads or sealing seams, the adaptation to the respective working line by the transverse movement of the working means is at best combined with slight lateral forces so that in this regard a quick and precise correction is especially of importance.
Further details and features of the invention arise from the claims, the description and the drawings. The latter show:
A machine tool 1 is depicted in
The jigsaw 2 has a housing 3 and is provided with its working means 7 in its forward region with respect to the direction of work 6. Said working means 7 is formed by a saw blade 7, which is reciprocally driven in the direction of the arrow 19, is held in a sawblade holder 18 and the reciprocating drive thereof is disposed in the region of the housing 3 lying thereabove.
For reciprocating drive in the direction of the arrow 19, the saw blade 8 is additionally to be driven via an actuator 20 in an oscillating manner in the direction of the arrow 12. Furthermore, the saw blade is rotatable about its axis of rotation which extends in stroke direction as is indicated by arrow 21. Different operating modes thereby result for said jigsaw 2, namely the normal working operation, wherein said jigsaw 2 works in the straight-ahead direction of work and the saw blade 8 extends with its flat sides 25 parallel to the longitudinal axis 24 of said jigsaw 2 and thereby along the longitudinal axis 24 of the corresponding sawing direction. A further working operation is the oscillating stroke operation, wherein said jigsaw 2 when shifted to the reciprocating drive is driven in a pendulum direction (arrow 12) via the actuator 20. As a third operating mode, the so-called scrolling mode is indicated by the arrow 21, wherein said saw blade 8 works in rotational positions displaced around its axis of rotation 23 with respect to the straight-ahead direction of work along the longitudinal axis 24 and can be adjusted to said rotational positions via an actuator, which is not depicted but only implied in
Furthermore, a sensor system 30 which is formed preferably by a camera and is aligned on the field of view as a detection surface 10, is disposed in this region; thus enabling conditions detected in the region of the field of view to be visualized by the user independently of the immediate observation of the working area. A special information display for said user could, for example, be provided for this purpose or also for other purposes such as, e.g., for the documentation of work results. An arithmetic and logic unit 31, which is schematically indicated, can among other things meet this end.
An arithmetic and logic unit 31 of this kind as well as a control and/or actuating unit 32, which is likewise only schematically indicated, is particularly provided for the purpose of supporting the user in the immediate handling of the jigsaw 2. This support particularly includes the tracking of working lines specified by markings or the like on the workpiece side; hence, for example, of a working line 27 according to
A semi-autonomous working operation for the jigsaw 2 as a hand-held working device is made possible by means of such an auxiliary device 29, which is symbolized by the sensor system 30 and the subordinate processing and actuating devices are illustrated by the arithmetic and logic unit 31 and the control and actuating unit 32. In said semi-autonomous working operation, the angle of rotation 28 of said jigsaw 2 is set in accordance with the respectively detected working line 27 such that a sawing direction which follows said working line 27 results and the user has only to support said jigsaw 2 with regard to this direction of work. Essentially the user must therefore only absorb the restoring forces (cutting forces) resulting from the sawing operation. The saw blade 8 thus specifies a working direction corresponding to the respective saw blade plane and ultimately determines the direction of work in accordance with the respective angle-of-rotation position which is aligned on a predetermined working line 27.
If hacksaws of this type are used as table saws having a saw blade lying above or below the table surface, a corresponding working method is thus provided when the working position of the jigsaw with regard to the respective table is specified and when the workpiece is supported by the user in alignment on the angle-of-rotation position of the saw blade corresponding to the working line to be followed. Substantially corresponding relationships are provided with respect to band saws because also in this instance a flat support between the respective material to be worked on, i.e. the respective workpiece, and the saw blade is provided; thus requiring a mutual alignment in the region of the saw blade.
Whereas in the exemplary embodiment according to
Basically this is also possible in connection with solutions, which according to
It is preferred for the working means 48 to be transversely displaceable to the device, in particular a pivotability transverse to the working line is especially advantageous for working devices, which are neutral in shape with regard to their alignment on the working line, thus particularly rotary working means and tools as, for example, milling cutters 41.
As seen in a top view, the exemplary embodiment according to
The depiction according to
Because the milling cutter 41 provided as the working means in the exemplary embodiment bilaterally engages the workpiece in the milled cut so as to facilitate the removal of material, the user in following the working line 27 has substantially only to generate the forces corresponding to the required feed forces.
If the sensor system 30 having the subordinate arithmetic and logic unit 31 as well as the control and/or actuating unit 32 is used for aligning the working device 35 on the working line 27, a semi-autonomous operation is possible according to the invention in the case of such a solution, wherein the user has only to generate the required feed forces and to support the milling machine 35 in its position with respect to said working line 27 in a stabilizing manner. This results from the fact that merely the direction of work moves accordingly in connection with corresponding, relatively small path corrections oriented to said working line 27.
In principle, a working device like the milling machine 35 depicted in
Within the scope of the invention, with regard to the straight-ahead direction of work, the pivot axis 37 and the axis 52 of the milling cutter 41, which serves as the working means, can lie on a straight line, which extends in the straight-ahead direction of work, so that symmetrical supporting forces result in said straight-ahead direction of work. Within the scope of the invention, a connecting straight line, which runs at an acute angle to the straight-ahead direction of work, between the axes 37 and 48 can, however, also be advantageous when adapting to special working conditions.
In the previous exemplary embodiments, material-processing and material-removing tools are in each case provided as the working means. Within the scope of the invention, particularly a configuration according to
The sensor system according to the invention can thereby be directly complemented and as the case may be by ulterior auxiliary means, in particular ulterior sensors, and can also be used to detect the respective feed rate; thus enabling influence to be exerted on the mentioned parameters also while taking into account the feed rate.
If the solution according to the invention is used with welding robots, stationary cutting tools or apparatuses for local plasma pretreatment, their working means can be controlled according to the principle, which is explained with the aid of
Number | Date | Country | Kind |
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10 2008 040 064.5 | Jul 2008 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2009/055390 | 5/5/2009 | WO | 00 | 3/16/2011 |