CN112004405A - Hand-held power tool, in particular a lawnmower or brush cutter - Google Patents

Abstract

The starting point of the invention is a hand-held power tool, preferably a garden tool, in particular a lawn mower (10) or a brush cutter, having a gripping unit (12) and a processing unit (38), which are connected to one another by a distance unit (32), in particular an extendable distance unit (32), preferably a telescopic unit (34). It is proposed that the machining unit (38) be arranged at an angle, in particular at an angle of 15 DEG to 75 DEG, preferably 45 DEG, to a plane which, at least in a horizontal cutting configuration (58, 400) of the hand-held power tool, is spanned by a parallel axis (61) which intersects the longitudinal axis (100) of the main tube (22) and is parallel to the rotational axis (60) of the machining unit (38) and the longitudinal axis (100) of the main tube (22) or of the distance unit (32).

Description

Hand-held power tool, in particular a lawnmower or brush cutter

Technical Field

Background

Hand-held power tools according to the preamble of claim 1 are already known.

Disclosure of Invention

The starting point of the invention is a hand-held power tool, preferably a garden tool, in particular a lawn mower or brush cutter, having a gripping unit and a processing unit, which are connected to one another by a distance unit, in particular an extendable distance unit, preferably a telescopic unit.

It is proposed that the gripping unit has two handles, the longitudinal axes of which are oriented non-parallel; and/or the free handle ends of the handles are directed towards each other, in particular in an X/V-shape; and/or the non-free handle ends of the handles are V-connected by means of a connecting unit, in particular a swinging unit. Thereby enabling an improved ergonomic design of the garden appliance. Additional, often cumbersome, transverse steering gears can be dispensed with. Intuitive operation can be achieved. Unlike the parallel longitudinal axis orientation of the handle, the longitudinal axes of the handle intersect in an extension of the free end of the handle.

The hand-held power tool has a drive, in particular an electric drive, an internal combustion drive, a pneumatic drive, a hydraulic drive or the like, with which the tool is directly or indirectly driven. The hand-held power tool is guided by the gripping unit. Precise machining can be performed by two-hand guidance. Furthermore, the weight of the appliance can be transferred particularly relatively uniformly to both hands, particularly preferably by selecting the center of gravity as described below. The garden appliance can be, for example, a lawnmower or a brush cutter, a hedge trimmer, a so-called multi-function tool, in which an accessory can be exchanged, for example between a chain saw, a hedge trimmer, a pruning trimmer, or the like. The processing unit can be driven directly or indirectly. For example, the distance unit can space the drive unit (e.g. the motor) from the machining unit (e.g. the cutting or trimming head, the chain saw or hedge trimmer, etc.). The connection is then effected, for example, by means of a force transmission shaft or, alternatively, also by means of a hydraulic or pneumatic system or the like. However, the motor and the machining unit can also be arranged at a common end of the distance unit. The motor can drive the application tool directly or indirectly, for example via a transmission.

Furthermore, a lawnmower or brush cutter is proposed, having a main pipe, on which a gripping unit is arranged, which gripping unit has at least one handle, in particular a handle which is directly connected to or at least directly projects from the main pipe, the longitudinal axis of which handle extends out of a handle plane with the longitudinal axis of the main pipe, and having a processing unit which is connected to the gripping unit by a distance unit, in particular a distance unit which can be extended, preferably a telescopic unit, wherein the processing unit occupies a horizontal cutting configuration and a parallel axis which intersects the longitudinal axis of the main pipe and is parallel to the axis of rotation of the processing unit and a longitudinal axis of the main pipe or of the distance unit extends out of a processing unit plane. It is proposed that the handle plane is inclined relative to the processing unit plane about the longitudinal axis of the main tube or of the distance unit, in particular by 5 ° to 25 °, preferably 15 °.

Furthermore, it is proposed that the gripping unit has two handles which are connected by a connecting unit and/or a pivoting unit, which can be pivoted, at least in a V-shaped orientation. In this way, the hand-held power tool can be converted in a simple manner from the working configuration into the storage or transport configuration and vice versa. The V-shaped pivoting unit imparts a high stability to the connecting unit or gripping unit in the V-orientation. It is also used to accommodate the release element. A stop element can be arranged in the pivoting unit. Furthermore, the release element can be pretensioned by a spring. Resetting of the release element can thereby be ensured. Furthermore, the release element or the form-locking element connected thereto can have a bevel in order to tension the pivoting unit advantageously at least in the tilted-up position, in particular in order to tension the pivot axis of the pivoting element or the handle in the plane of movement.

Furthermore, it is proposed that the gripping unit, the connecting unit and/or the pivoting unit have a telescopic adjustment unit. In particular, a locking mechanism, for example a form-locking mechanism with a clip device, is arranged on and/or integrated into the connecting unit and/or the pivoting unit. This reduces the number of components, increases the rigidity and/or improves the intuitive use of the hand-held power tool.

It is furthermore proposed that at least the legs of the connecting unit or of the connecting unit which can be oriented at least in a V-shape have or enclose an angle of 45 ° to 75 °, in particular 60 °, at least in the folded-up state, and/or that the connecting unit enclose an angle of <25 °, in particular 5 ° to 25 °, preferably 15 °, in the folded-up state, and/or that the handles of the gripping unit in the folded-up state contact each other or diverge substantially in a V-shape, preferably at an opening angle of 45 ° to 75 °, in particular 60 °, only in the region of the free ends of the handles or are closest to each other and/or toward the non-free ends of the handles, and/or that the respective legs of the connecting unit and the longitudinal axis of the handles have an acute orientation, preferably an opening angle of 45 ° to 85 °, in particular 60 °. The ergonomic design of the hand-held power tool is also improved thereby, and the handling is facilitated.

Furthermore, it is proposed that the center of gravity of the hand-held power tool is located in the region of at least the V-shaped-oriented connecting unit of the handle, in particular in the region of the pivoting unit, and/or along the longitudinal axis of the main tube (22).

It is furthermore proposed that, in order to produce a moment equilibrium which acts at least substantially around the longitudinal axis of the main pipe, the machining unit is arranged so as to be displaced toward one side of the main pipe, and the second handle or the swiveling unit and/or the connecting unit is arranged so as to be displaced toward the other side of the main pipe. The torques generated as a result of the force of gravity acting on the machining unit and the second handle or the pivoting unit or the connecting unit are therefore balanced with one another, since they act opposite one another about the longitudinal axis of the main pipe. The ergonomic design is also improved thereby. The user does not have to apply a torque or torsion force to hold the hand-held power tool in, for example, the horizontal cutting configuration.

It is furthermore proposed that the processing unit be arranged at an angle to the processing unit plane, in particular at an angle of 15 ° to 75 °, preferably 45 °, which is spread out at least in the horizontal cutting configuration by a parallel axis intersecting the longitudinal axis of the main tube and parallel to the rotational axis of the processing unit and the longitudinal axis of the main tube or of the distance unit.

It is furthermore proposed that a parallel offset relative to the main cutting direction axis (main operator movement direction) is provided between an angle bisector of the V-shaped gripping or pivoting unit and an angle bisector of the opening angle of the pivoting unit, which angle bisector projects onto the horizontal cutting plane, or that the angle bisector of the opening angle, which angle bisector projects onto the horizontal cutting plane, specifies the main cutting direction axis, wherein the cutting head has a parallel offset relative to the main cutting direction axis, which parallel offset is in particular equal to or greater than 1/2 of the gripping distance of the user or equal to or greater than 1/2 of the shoulder width of the user, preferably equal to or greater than 100 mm, in particular equal to or greater than 150 mm, particularly preferably equal to or greater than 200 mm, in particular increases with an extension of the telescope.

Drawings

Other advantages result from the following description of the figures. The figures, description and claims contain many combinations of features. The skilled person suitably also observes the features individually and combines them into meaningful further combinations.

The figures show:

fig. 1 shows a front view of a hand-held power tool according to the invention in the form of a garden implement, here in the form of a lawnmower or brush cutter,

figure 2 shows the lawnmower in three views in a horizontal cutting configuration,

figure 3 shows the lawnmower in three views,

figure 4 shows the lawnmower in three arrangements or in a horizontal cutting configuration, an edge cutting configuration and a short flat cutting configuration,

figure 5 shows two views of the oscillating and rotating device in respective exploded views,

figure 6 shows in an exploded view an adjustment device for the telescopic or height adjustment of the lawnmower,

figure 7 shows a detail of figure 6 in a different view,

figure 8 shows the lawnmower in a compact storage or transport configuration,

fig. 9 shows an alternative swing, rotation and height adjustment arrangement.

Detailed Description

Fig. 1 shows a hand-held power tool in the form of a vegetation cutting or gardening implement, here in the form of a lawnmower 10 or a brush cutter. The lawnmower 10 or brush cutter has a grip unit 12. The gripping unit 12 comprises at least one first handle 14. Furthermore, the grip unit 12 comprises a second handle 16. The first handle 14 is connected to the second handle 16 by a connecting unit 18. The second handle 16 is configured to be displaceable or pivotable relative to the first handle 14. The second handle 16 can be pivoted relative to the first handle 14 or relative to the main tube 22 via a pivoting unit 20. The swing angle is an acute angle 24. The gripper unit 12 thus assumes a V-shaped configuration at least in one working position. The pivoting unit 20 forms part of the connecting unit 18 or the gripping unit 12. The swing unit 20 can be released by a release member 26. The user can thus flip up and/or fold. The gripping unit 12 is fastened to the main pipe 22 or the connecting rod of the lawnmower 10. The grip unit 12 can also form part of the main tube 22 or a connecting rod. The second handle 16 is connected to the swing unit 20 through a tube 28. The tube 28 forms part of the gripping unit 12 or the connecting unit 18 to some extent. The main tube 22 and the tube 28 are each at least partially surrounded by a connecting or reinforcing element 30. These connecting or reinforcing elements can merge into the respective handle 14, 16 or can also be formed integrally with the handle 14, 16. Which stiffen the position of the handles 14, 16. They at least partially surround the main tube 22 and the tube 28.

The gripping unit 12 is connected to a processing unit 38 via the distance unit 32 or via the telescoping unit 34, here via a further tube 36, in particular a tube 36 which can be telescoped relative to the main tube 22. The distance unit 32 connects the gripping unit 12 and the processing unit 38 to each other and spaces them apart from each other. The distance unit 32 is configured to be displaceable relative to the grip unit 12 or the main tube 22. By operating the adjusting device 40, the distance unit 32 can be extended and retracted. For example, form-locking elements (e.g., latching means), which are not shown here, engage in corresponding form-locking elements on the distance units 32. They are disengaged or brought into engagement by the adjusting device 40. In this way, the lawnmower 10 or the brush cutter can be adapted to different operating heights and/or operating positions or can be compactly stored or transported. The processing unit 38 includes a cutting head 42. The cutting head 42 drives a cutter (not shown here) in the case of a brush cutter, a cutting disc with, for example, a movable cutting cutter (hybrid brush cutter/lawnmower — also not shown here), or a cutting line 44 in the case of the lawnmower 10. Due to the high rotational speed of the cutting wire 44, the cutting wire is tensioned by centrifugal forces and can thereby cut or break cut material, in particular grass. Alternatively, however, the processing unit 38 can also be a hedge trimmer attachment, a chain saw attachment, a pruning trimmer attachment, a spray attachment, etc. The processing unit can optionally be configured to be telescopic or to have a fixed distance to the gripping unit 12 or the main tube 22. The cutting head 42 comprises in the present example a drive unit 46 and a cutting unit 48. The drive unit 46 is formed here by a motor, in particular an electric motor. The cutting unit 48 comprises a spool 50 on which the cutting line 44 can be arranged or wound. If the drive unit 46 rotationally drives the spool 50 or the cutting line 44 projecting from the spool 50, the cutting line 44 can be used in a known manner to cut or trim grass or lawn, or also brush. The cutting can be carried out easily by means of the distance unit 32 in the case of a lawnmower 10 or brush cutter, while the user stands or walks and swings the lawnmower 10 over a lawn surface, for example; it is also possible to work on hedges or trees typically with the aforementioned attachments or other corresponding attachments. The drive unit 46 is supplied with energy, for example, from a battery (not shown here). The battery is arranged on the battery receptacle 52 at the end of the main pipe 22 spaced apart from the cutting head 42, which serves here for an improved distribution of the balance of the lawnmower 10 or for an improved ergonomic design of the lawnmower 10. The accumulator may be said to constitute the motor or counterweight of the cutting head 42. As a result, the center of gravity of the lawnmower can be displaced into the region 53 of the gripper unit 12 or the region of the pivoting unit 20 or the connecting unit 18. In principle, however, the battery can also be arranged elsewhere. To activate the motor, the user can actuate a switch 54, in particular a throttle switch. The transmission of switching signals and/or control signals and/or energy between the gripping unit 12 and the cutting head 42 can here be done, for example, by means of cables, not shown, which are routed within the main pipe 22 and the distance unit 32. Of course, the garden appliance can have a control or regulator which undertakes the control or regulation of the motor at least from the signal of the switch 54 and/or which monitors, controls or regulates the battery state or the motor state and/or the like. In the case of such a garden appliance, the motor can likewise be arranged elsewhere, for example on the end of the main pipe 22 spaced apart from the cutting head 42 (i.e. in the region of the battery interface 52 shown here). The motor can supply the cutting head 42 with drive energy, for example, via a force transmission shaft extending in the main pipe 22 and the distance unit 32 and the further pipe 36.

For better clarity and also for orientation in other figures, a coordinate system 56 is depicted. With reference to the cutting head 42 or lawnmower 10 shown here in a horizontal cutting configuration 58, the cutting unit 48 or spool 50 and/or the cutting line 44 rotate about a rotational axis 60 or Y-axis. The horizontal cutting plane is unfolded from the X-axis and Z-axis. Here again, this is the plane in which the cutting line 44 rotates. For better illustration, the main cutting direction 62 is also defined by a Z-axis extending from the viewing plane of the drawing. This main cutting direction 62 schematically defines the forward gait (Gerade-Aus-Gang) of the user of the lawnmower 10.

Fig. 2 shows the lawnmower 10 from fig. 1 in three views a), b), c) in a horizontal cutting arrangement 58, respectively. The horizontal cutting arrangement is provided for carrying out horizontal cutting, i.e. cutting substantially parallel to the working surface or working plane or ground. The lawnmower 10 is shown at least partially in a side view in view a). View b) shows the lawnmower 10 in a slightly forward tilted front view. View c) shows the lawnmower 10 in a top view. In this view c) a coordinate system 56 similar to fig. 1 is also present, and a main cutting direction 62 in the z-axis direction is present. Most of the components identical to those of fig. 1 are not re-labeled with reference numerals, as are the other drawings. However, certain angles, axes, spacings and orientations are also drawn in addition. In principle, it should be noted that in the following, the longitudinal axis of the substantially elongated member of the tube, the handle or the like is understood to extend along the central or middle axis of the substantially elongated member of the tube, the handle or the like. The longitudinal axis therefore substantially corresponds to a central axis along the main extension direction of the respective component. The longitudinal axis 100 runs along the main tube 22 or along the distance unit 32, the telescopic unit 34 or the further tube 36. The longitudinal axis 102 extends along a central axis of the tube 28 to which the second handle 16 is secured. The pivot angle 80 between the longitudinal axis 100 and the processing plane 82 is approximately 15 ° to 65 °, in this case approximately 48 °. In other advantageous configurations, it can be 36 ° or 24 °. In view b), the angle 84 between the longitudinal axes 100 and 102 of the main tube 22 and the further tube 36 is approximately 45 ° to 75 °, in particular approximately 60 °. Starting from a plane 85 lying on the Y-axis and the Z-axis (see view c)), the angle bisector 87 of the angle 84 lies in a parallel plane 86 parallel to the plane 85. The angle bisector 87 or the parallel plane 86 intersects the pivoting unit 20 and the release element 26 centrally. The gripper unit 12 or the pivoting unit 20 is oriented in a V-shape. The two legs of the V (main tube 22 and tube 28) on which the handles 14, 16 are arranged extend to the right and to the left of the angle bisector 87. In the top view on the right, the user of the lawnmower 10 or brush cutter is also depicted, carried in the normal position. The user's line of sight is oriented on the Z-axis. The middle of the body of the user is in the region of the parallel plane 86 or the angle bisector 87 of the grip unit 12. Arrow 88 symbolizes the preferential heading direction of the user along a preferential heading axis 90. The preferential advancing axis 90 is oriented parallel to the Z-axis and has an offset 92. The same is true for a parallel plane 86 parallel to the plane 85, in which parallel plane 86 also the angle bisector 87 lies. Offset 92 is variable depending on the scaling state of scaling unit 34. In this illustration, the form-locking element 94, which acts as a latch during telescoping, can also be seen on the telescoping unit 34 or another tube. The offset 92 is slightly larger than half of the user's shoulder width 96. In other words, this is the offset between the axis of rotation 60 of the processing unit 38 or cutting head 42, in particular of the cutting unit 48, and the center of the gripper unit 12 or pivoting unit 20. Whereby the user can for example conveniently travel straight along the fence while the cutting head 42 is displaced to the left. The angle 98 between the parallel plane 86 or the preferential heading axis 90 and at least a projected longitudinal axis 100 of the main tube 22 is approximately 45 °. It can of course also vary.

Fig. 3 shows the lawnmower 10 in three views a), b), c) with additional drawn handle planes 101, 103 and a plane 104 which can also be referred to as a handle pivot plane. Like fig. 2, substantially no reference numerals are assigned to the same components as fig. 1. The longitudinal axis 100 of the main tube 22 or distance unit 32 or further tube 36, on which the first handle 14 is arranged, and the longitudinal axis 102 of the tube 28, on which the second handle 16 is arranged, extend out of a plane 104. The tube 28 is also configured to be able to swing or flip along the plane 104 or in a plane at least parallel thereto. The tube 28 can be swiveled or tilted between a working position and a storage or transport position (see fig. 8 for this purpose). The angle swept out here is an acute angle. The angle 84 is about 60 ° in the flipped-up state and less than 20 ° in the flipped-in state (about 10 ° according to fig. 8). In principle, additional pivot angles or pivot angles are also conceivable, at which the pivot unit 20 latches. This makes it possible to adapt the grip spacing of the handles 14, 16 to different persons, for example to the shoulder width 96 of the user or to different hand positions which are perceived as convenient by the user in terms of different mood states.

A longitudinal axis 106 extending through first handle 14 and a longitudinal axis 108 extending through second handle 16 are arranged to be non-normal to plane 104. They are thus not parallel. The handles 14, 16 are configured with their respective longitudinal axes 106, 108 inclined relative to the plane 104, in particular each about two longitudinal axes 100, 102, 116, 118 which are orthogonal to one another. The longitudinal axes 100, 102 lie in a plane 104. In one aspect, the handles 14, 16 are angled toward one another about longitudinal axes 100 and 102. The angle of inclination 110, 112 between the plane 104 and the longitudinal axis 106, 108 of the respective handle 14, 16 is approximately 60 ° to 85 °, in particular approximately 75 °. The angle of inclination 110, 112 corresponds to the angle of inclination about the longitudinal axes 100, 102. Furthermore, the handles 14, 16 are tilted about longitudinal axes 116, 118, which extend normal to the respective longitudinal axes 100, 102 of the main tube 22, the tube 28, and within the plane 104, which may also be referred to as auxiliary or directional longitudinal axes. The angles 120, 122 are likewise each approximately 60 ° to 85 °, in particular approximately 75 °. Expressed loosely, the handles 14, 16 are inclined with respect to their free handle ends 15, 17, on the one hand towards each other and/(or), on the other hand, towards the machining unit 38 or the oscillating unit 20. Or in other words the free handle ends 15, 17 are directed towards each other, in particular in an X/V-shape, and/or the non-free handle ends 19, 21 are V-connected by means of a connecting unit 18, in particular a swinging unit 20. An ergonomic design which is convenient for the user is thereby achieved. If you are the reader of the patent application or associate putting your hand for example in the same width as the shoulder or for example closer into the pocket or on the thigh. You will determine that this corresponds to a relaxed orientation of the hand-the lawnmower 10 or brush cutter is so held. This is precisely an advantage over the so-called bull horn steering, which in principle is held higher and wider and the handle longitudinal axes of which are generally oriented parallel to one another. Furthermore, in the case of bull horn steering, the handles 14, 16 are typically spaced further apart.

Fig. 4 shows the lawnmower 10 in three arrangements a), b), c). The left side (view a)) is in a horizontal cutting configuration 400 (see also fig. 1, 2 and 3). The middle (view b)) is in edge cut configuration 402. The right side (view c)) is in a low level cut configuration 404, i.e. a configuration limited in space upwards or height, for example to enable a level cut to be performed under an object such as a table, hollywood swing, etc. Reference numerals are not substantially given to the same components as those of the previous drawings. To achieve the edge cutting configuration, the user or user actuates the pedal 612, which is shown in detail in fig. 5, in the direction of the arrow 406 and then typically rotates the gripper unit 12 by 180 ° in the direction of the arrow 408 about the longitudinal axis 100 of the main tube 22 or of the distance unit 32. The grip unit 12 is thereby turned and its handles 14, 16 are directed towards the ground, for example. If the user now switches the gripper unit 12 into its initial or use position, the processing unit 38 or the cutting head 42 is oriented or oriented in such a way that it can be used for an edge cut — in other words, in the edge cut configuration 402 according to view b). The cutting line 44 can now be rotated in a vertically oriented plane. The support wheel 410 or the cutting distance unit 412 spaces the spool 50 sufficiently far from the ground (not shown here) that a desired edge trimming or cutting can be achieved and the cutting line 44, alternatively the cutting blade in the case of a brush cutter, is not excessively worn. This also ensures a sufficient free length of the cutting wire 44 to achieve a high cutting wire speed at its end and thus a high cutting quality. The cutting distance unit 412 or the support wheel 410 is also used for guidance and low-friction rolling on the ground. However, the support wheels 410 can also be used in a horizontal cutting arrangement 400 or a short flat cutting arrangement 404 along an edge, fence or other object (not shown here), such as a tree, to keep the cutting head 42 at a desired cutting distance from the object. As a result, wear, in particular of the tool used (cutting wire 44 or knife in the case of brush cutters), is reduced and the operation is simplified or made more intuitive. The short flat cutting arrangement 404 can likewise be realized by actuating the pedal 612 and pivoting the main pipe 22 or the gripping unit 12 relative to the machining unit 38 or the cutting head 42 in the direction of the arrow 416. The main tube 22 and the gripping unit 12 are thus closer to the ground, while the cutting line 44 can rotate in a horizontal plane as before. Angle 80 (see also view a of fig. 2) between longitudinal axis 100 of main tube 22 and machining plane 82, not shown here, is approximately 36 ° in edge cut configuration 402 and approximately 24 ° in short flat cut configuration 404, although other values can also be used. The pedal 612 swings about 20 ° upon the manipulation.

Fig. 5 shows the pivoting and swiveling device 600 in a first view a) and in a rear view b) in terms thereof, in an exploded view, respectively. The main components shown here are: a housing 602 having two housing shells 604 and 606; a spring 608; a clutch 610; a pedal 612 as a release member; a hub 614; connector 616, which can also be referred to as a distance cell connector or end stop; and a locking device 618. These members are arranged substantially along a main axis 620 (oscillation axis). The other axis 622 (axis of rotation) extends in particular orthogonally to the main axis 620. This further axis 622 also corresponds in the present case to the longitudinal axis of the distance element 32. The main axis 620 and the further axis 622 define the rotational degree of freedom of the pivoting and rotating device 600 or the processing unit 38 relative to the gripper unit 12 or the distance unit 32. Edge cutting arrangement 402, which sets machining unit 38 in a pivoting motion about main axis 620 (height adaptation by pivoting, or setting angle 80 to view b of fig. 4), is here approximately 36 °; or short flat cut configuration 404, where angle 80 is about 24, see fig. 4 c)). Furthermore, simultaneously or in succession, in each case with a common release element, namely a foot pedal 612, the processing unit 38 is twisted about the other axis 622 (for the purpose of the edge cutting function, see view b of fig. 4) about the edge cutting arrangement 402).

Proceeding from views a) and b) of fig. 5, a plurality of ribs 626, which are parallel to the main axis 620, are arranged on the first housing shell 604 starting from the wall 624. These ribs 626 correspond with notches 628 in the clutch 610. They serve to prevent rotation of the clutch 610 relative to the housing 602; they enable axial movement of the clutch 610 relative to the housing 602. The clutch 610 has a ramp 630 that corresponds or forms a ramp pair with the ramp 632 of the pedal 612. By actuating the pedal 612 in the direction of arrow 634, the ramp 632 is twisted via the arm 636 relative to another ramp 630 disposed on the clutch 610. As a result, the clutch is displaced axially in the direction of the housing shell 604 or its wall 624 against the restoring force or pretensioning force of the spring 608.

The teeth 638 arranged on the clutch 610, in particular the teeth 638 of the plug-in toothing, are disengaged from the corresponding teeth 640 on the hub 614. Thus, as long as the tooth pairs 638 and 640 are out of engagement, the hub 614 can oscillate about the main axis and relative to the housing 602. This oscillation can be limited, for example, by the contour of the housing opening 642. The hub 614 is configured to be able to twist about a main axis 620 (here: a plain bearing) relative to the pedal 612 and the housing shell 606. To this end, pedal face 644 contacts hub face 646, and housing face 648 contacts hub face 650 (in an axial direction with respect to primary axis 620). In order to achieve a twisting of the processing unit 38, in particular an edge cutting function in the case of a lawnmower 10 or a brush cutter, the hub 614 is provided for receiving the connector 616 in a manner such that it can rotate about an axis. The axially displaceable clutch 610 has a pin 652 in addition to the teeth 638. The pins 652 are guided axially displaceably relative to the hub 614 via their sliding surfaces 654. The pins 652 are configured for engagement in notches 656 of the connector to prevent twisting of the connector 616 about the axis 622, selectively between the 0 position and the 180 position. If the pedal 612 displaces the clutch 610 axially against the spring force in the direction of the housing shell 604, the engagement of the teeth 638, 640 of the clutch 610 and the hub 614 and the connection of the pin 652 and the notch 656 are cancelled. The machining unit can thereby be pivoted and rotated about two axes (620, 622), in particular two axes (620, 622) that are orthogonal to one another, relative to the distance unit by means of the release element (here: the pedal 612). Alternatively, other release elements are also conceivable. The connector 616 is locked axially in the direction of the further axis 622 with locking means 618 against displacement relative to the hub 614 or relative to the main axis 620. The locking device 618 is a collar that is seated in a channel 658 of the connector 616 and is supported on a face 660 of the hub 614.

As shown in the following view c), in which the connector 616 can be seen in two detail views (rotated by 180 °) and the hub 614 (right side) can be seen in one detail view, the connector has latching means 662 (here in the form of longitudinal channels) and notches 664, which are provided at least in part for a non-positive and/or positive connection to the distance unit 32. In addition, the connector 616 has two additional stop surfaces 666, 668 that correspond to stop surfaces 670 and 672 on the hub 614. In this way, in the event of a rotation of the processing unit 38 relative to the distance unit 32 or the gripper unit 12 about the further axis 622 or the longitudinal axis 100, stops for the 0 ° position and the 180 ° position are provided, which makes the adjustment intuitive, simple and more reliable. Locking of the turning and swinging mechanism is only possible when the tooth pairs 638, 640 and the pin 652 and notch 656 are in respective orientations toward each other. However, in principle, it is also conceivable, among other possibilities, to provide additional notches, for example in 90 ° and 270 ° of the connector 616, and/or to provide a frictional connection instead of a plug-in engagement or a pin, in order to achieve a greater number of adjustment positions when swinging and turning the hand-held power tool. It is also conceivable for the release element to be released, for example, by a cable feed, a link, a wedge, etc., or by a telescopic adjustment of the distance unit (see fig. 9 for this purpose). In this way, the height adjustment function (distance from the gripping unit to the processing unit), the swinging function and the turning function can be provided with only one release element. The release element may also be arranged on the gripping unit, the distance unit or the processing unit, for example. Alternatively, it is also conceivable, however, to combine the height adjustment along the longitudinal axis of the distance unit (i.e. the adjustment of the distance between the gripping unit and the processing unit) with the swiveling function and/or the rotating function with only one release element acting between the processing unit and the distance unit. It is likewise conceivable to combine the pivoting function and the height adjustment function by means of a common release element.

The processing unit 38 can thus be configured in a twisting manner about two axes (i.e. the main axis 620 and the further axis 622), in particular two axes orthogonal to one another (relative to one another), relative to the distance unit 32 by means of a (common) release element (here the foot pedal 612; but in principle any other common release element is also possible). In order to achieve a height adjustment of the gripping unit 12, in particular by means of a pivoting function of the distance unit 32 relative to the processing unit 38 at an angle 80, preferably by pivoting about a pivot axis transverse to the longitudinal axis 100 of the distance unit 32, in this case the main axis 620, and to achieve the edge cutting arrangement 402 by twisting the processing unit 38 relative to the distance unit 32, in particular about the longitudinal axis 100 of the distance unit 32, a release element (in this case the foot pedal 612) is provided for releasing at least the driving tooth latch (or the plug-in engagement of the teeth 638, 340) and the pin latch (of the pin 652 in the notch 656), in particular also for re-latching the same.

Fig. 6 shows an exploded view of the lawnmower 10 or the string cutter with the swing unit 20 for the V-shaped orientation of the gripper unit 12 and the adjusting device 40 for the telescoping or height adjustment. The same components as in fig. 1 or other figures are not re-described.

Fig. 7 shows the detail 500 of fig. 6 in a different view. In view a), the adjusting device 40 or the height adjustment mechanism is shown in a sectional view. The release element 502 is spring-pretensioned and is displaced in the direction of arrow 504 due to the pressure exerted thereon. As a result, at least the latching means 506 connected to the release element 502 are lifted from the corresponding form-locking element 94 on the tube 36. The tube can now move relative to the main tube 22 in the direction of arrow 508.

View b) and further views c), d) and e) of fig. 7 show the components of the pendulum unit 20. The main pipe 22 is fixed with clamp plates 510 and 512. A clamp plate 514 is fixed to the tube 28. Each of which has a notch through which the common swing unit rotation axis 518 passes. Furthermore, the clamping plates 510, 512 and 514 have corresponding stop elements 520, 522, each offset by 180 °. These stop elements serve as end stops in the open V-shaped position of the gripper unit 12. The release element 26 has a clip means 530 which corresponds to the form-locking elements 524, 526, 528 on the clip plates 510, 512, 514. The adjusting device 40 can thus be latched in two positions by actuating the spring-biased release element 26, namely a V-handle, swivel or connecting arrangement according to fig. 1 or a folded-over handle, swivel or connecting arrangement according to fig. 8, for example. But is characterized in that: the clipping device, one of which can be seen in the enlargement X of the section B-B of view d), has at its distal end a stage 532. This results in a clamping between the clamping means 530 with the corresponding form-locking elements 524, 526, 528 and the stop elements 520, 522 in the V-open position. As a result, the gripper unit 12 or the connecting unit 18 or the pivoting unit 20 takes up play in the V-folded configuration. The pivotable gripper unit 12 is therefore supported in the operating position with as little play as possible, which increases the convenience and safety.

Fig. 8 shows the lawnmower 10 in a compact storage or transport configuration. The tube 36 is pushed fully in relation to the main tube 22. The grip unit 12, the connection unit 18, and the swing unit 20 are folded. Further elements are self-evident in connection with the previous figures.

As indicated in the description of fig. 5, fig. 9 shows an alternative swing, turn and height adjustment device 700, wherein all three or even a fourth adjustment (additionally, the swing angle of the gripping unit 12) is triggered by means of a foot pedal 712. The displacement of the foot pedal 712 causes the additional clutch 704 to be axially displaced leftward along the main axis 720. The profile 705 causes an axial displacement of the rod 706 such that its form-locking element 707 is disengaged from the tube 736 from the engagement 708, wherein the tube 736 can at the same time be a tube 736 of the distance unit 32 according to fig. 1. The lever 706 can likewise release or release an alternative height adjustment mechanism 740 and/or a pivoting mechanism, not shown here, for example from the gripper unit 12 of fig. 1. It is now possible to rotate the tube 736 about its longitudinal axis 100, for example, in order to achieve the edge cutting arrangement 402. Further, the height adjustment mechanism 740 is released. Furthermore, it is possible for the tube 736 to pivot about the main axis 720, since the clutch 710 is already disengaged.

Claims (8)

1. Hand-held power tool, preferably a garden tool, in particular a grass trimmer (10) or a brush cutter, the hand-held power tool has a gripping unit (12) and a processing unit (38) which are connected to each other by a distance unit (32), in particular an extendable distance unit (32), preferably a telescopic unit (34), characterized in that at least in the horizontal cutting configuration (58, 400) of the hand-held power tool a plane is formed by a parallel axis (61) intersecting the longitudinal axis (100) of the main tube (22) and parallel to the rotational axis (60) of the machining unit (38) and the longitudinal axis (100) of the main tube (22) or of the distance unit (32), the processing unit (38) is arranged at an angle relative to the plane, in particular at an angle of 15 ° to 75 °, preferably 45 °.

2. Hand-held power tool according to claim 1, characterised in that, in order to establish a moment balance which acts at least substantially around the longitudinal axis (100) of a main pipe (22), the machining unit (38) is arranged to be displaced towards one side of the main pipe, and the gripping unit (12) and/or the second handle (16) and/or the connecting unit (18) and/or the oscillating unit (20) is arranged to be displaced towards the other side of the main pipe.

3. Hand-held power tool according to at least one of the preceding claims, characterized in that the gripping unit (12) has two handles (14, 16), wherein the free handle ends (15, 17) are oriented towards one another in an X/V-shape and/or wherein the non-free handle ends (114, 115) are V-connected by means of a connecting unit (18), in particular a swivel unit (20).

4. Hand-held power tool according to claim 3, characterized in that the handles (14, 16) are connected by means of a connecting unit (18) and/or a pivoting unit (20) which can be oriented at least in a V-shape, the connecting unit (18) and/or the pivoting unit (20) being in particular tiltable.

5. Hand-held power tool according to at least one of the preceding claims, characterized in that the gripping unit (12) and/or the connecting unit (18) and/or the swiveling unit (20) has a telescopic adjustment unit (35).

6. Hand-held power tool according to at least claim 3 or 4, characterized in that at least the legs (23, 29) of the grip unit (12) that can be oriented in a V-shape and/or the connection unit (18) enclose an angle (24, 84) of 45 ° to 75 °, in particular 60 °, at least in the tilted-up state, and/or in that the grip unit (12) and/or the connection unit (18) enclose an angle (24) of less than 25 °, in particular 10 °, in the flipped-up state, and/or in that the handles (14, 16) of the grip unit (12) in the flipped-up state contact or are closest to one another only in the region of the free ends (15, 17) of the handles (14, 16) and/or diverge substantially in a V-shape towards the non-free ends (114, 115) of the handles (14, 16), preferably in a range of 45 ° to 75 °, (ii), In particular 60 DEG, and/or the longitudinal axes (106, 108) of the respective legs (23, 29) of the gripping unit (12) and/or the connecting unit (18) and of the handles (14, 16) have an acute orientation relative to one another, preferably an opening angle (109) of 45 DEG to 85 DEG, in particular 60 deg.

7. Hand-held power tool according to one of the preceding claims, characterized in that the center of gravity of the hand-held power tool is located in the region (53) of the at least V-shaped orientable connecting unit (18) of the handle (12), in particular in the region (53) of the swivel unit (20), and/or along the longitudinal axis of the main tube (22).

8. Hand-held power tool according to one of the preceding claims, characterized in that at least one angle bisector (87) of the V-shaped gripping unit (12) or of the pivoting unit (20) or of the angle of opening (84) of the pivoting unit (20) projected onto the horizontal cutting plane or machining plane (82) has a parallel offset relative to the main cutting direction (62) of the cutting head (38), in particular greater than or equal to 1/2 of the gripping distance of the user or greater than or equal to 1/2 of the shoulder width (96), preferably greater than or equal to 100 mm, in particular greater than or equal to 150 mm, particularly preferably greater than or equal to 200 mm, which increases in particular in the case of an extension of the telescopic unit (34).

Images