EP1881884A1 - Electric machine tool - Google Patents

Abstract

The invention relates to an electric machine tool comprising a device body (10) that is disposed in a housing (11) and a handle (12) in which a switch (13) is arranged. Said switch (13) is indirectly connected to a switching element (14) located in the device body (10) in order to actuate an electric on/off switch (15).

Description

Power tool

State of the art

The invention relates to a power tool according to the preamble of claim 1.

Handling of power tool machines, in particular rotary hammers, is problematic in that the operator is exposed to a relatively high load by vibration forces, for example during a hammer operation.

There are already known power tools with vibration-damping handles. In one design embodiment of a power tool, the handle is rotatably mounted on its lower cantilever, with a slight angular movement about the pivot point is executable. As a result, vibrations are damped, which makes the usability of the power tool more pleasant. In addition, the device is easier to use and can therefore be guided safely. The problem with this design is an arrangement of electrical leads to the usually arranged in the handle on-off switch, the electrical leads should be located as close to the pivot point, not to abschwingen or relative routes between the device body and handle to reduce. For design reasons, such an arrangement is often difficult to achieve.

In an alternative design execution rotary hammers are conceivable with a parallel movable in the direction of impact handle, which although an optimal vibration damping is achieved. However, a vibration load of the electrical leads of the arranged in the handle on-off switch is relatively high.

Advantages of the invention In the power tool according to the invention, a switch arranged in the handle is indirectly connected to a arranged in the device body switching element for actuating an electrical on-off switch. Advantageously, an electrical switching function arranged in the device body and a mechanical switching function arranged in the handle are separated. An acting on the electrical switching function

Vibration load is thus advantageously reduced to a minimum. As a result, especially the electrical safety is ensured. Another advantage is that no electrical leads to the mechanical switch in the handle are required because it is replaced by the indirect connection according to the invention. if the

Electric machine tool accidentally falls to the ground or is exposed to other strong mechanical loads, the electrical safety is largely ensured in the design of the invention.

In a preferred embodiment of the invention, the indirect connection is formed by a Bowden cable. In this case, for example, a wire cable is guided through a flexible plastic or metal hose, whereby conveniently the tensile forces arising during actuation of the mechanical switch in the handle can be transmitted via curved paths to the electrical switching element in the device body.

In order to damp the vibrations arising during drilling operation, the handle of the power tool according to the invention is designed to be movable relative to the housing at least in the working direction. It can be provided that the handle is designed to be movable in parallel in the direction of impact. Another possibility is to form the switch and / or the switching element in each case pivotally mounted about a pivot point. As a result, a low angular movement of components about the pivot point is favorably possible, whereby the vibration load is reduced. The switching element arranged in the device body is preferably designed as a lever with at least one upper and one lower lever arm. At its first free end, the Bowden cable can be connected to a lower lever of the mechanical switch arranged in the handle. The mechanical switch is designed for example as a toggle switch or as a pawl. At its second free end, the Bowden cable can be connected to one of the lever arms of the switching element. When the mechanical switch is actuated, a lever action of the lower lever arm of the mechanical switch is activated, the leverage being transmitted via the Bowden cable to one of the lever arms of the switching element. As a result, the on-off switch is expediently activated automatically. If a potentiometer is connected to the on-off switch, it can be activated simultaneously via the described lever effect. With the potentiometer can be realized preferably designed as a gas function additional function.

Upon actuation of the mechanical switch via the Bowden cable and via one of the lever arms of the switching element, a blocking function for a rotatable brush plate can be triggered. With the help of the rotatable brush plate, a motor rotation direction, for example, from a right turn to a left turn, be switched. When the engine is switched on, according to the invention, a detrimental changeover of the direction of engine rotation from full running can be prevented by a direct or an indirect blocking function. When directly locking the brush plate can be rotated or switched from the outside in the range of a commutator. In the case of indirect locking, a changeover in the region of the handle can be triggered, preferably within the reach of the fingers, as a result of which the changeover function is designed to be particularly user-friendly. In particular, the blocking function in the case of indirect locking can be triggered via one of the lever arms of the switching element and via a switching lever. The switching lever can be operated via a slide, wherein the slide can be actuated only in a defined position of a rotary switch for a drilling operation. In particular, the defined Position of the rotary switch in drilling operation are defined by a flattening on the rotary switch. Thus, a user-friendly switching of the motor rotation direction can be achieved in a particularly simple manner, at the same time damage to the electric machine tool is prevented by switching the motor rotation from full running.

The embodiment of the invention is also conceivable for a power tool with a rigid, fixed handle and partially also chisel hammers, but no switching of the motor rotation is required.

drawing

Further embodiments, aspects and advantages of the invention will become apparent independently of their summary in claims, without limiting the generality of embodiments of the invention shown below with reference to drawings.

In the following show:

Fig. 1 shows schematically a section through an embodiment of a hammer drill according to the invention; 2 schematically shows a section through an alternative embodiment of a hammer drill according to the invention with an unactuated mechanical switch in the handle.

FIG. 3 is an illustration according to FIG. 2 with the mechanical switch actuated; FIG. and FIG. 4 is a plan view of a hammer drill according to the invention.

Description of the embodiments Fig. 1 shows a section through a hammer drill according to the invention in a schematic view. The hammer drill comprises a device body 10 arranged in a housing 11 and a handle 12. A motor 34 is arranged in the device body 10. A switching of the direction of rotation of the motor 34 is possible via a rotatable brush plate 25. Conveniently, thus switching the direction of rotation can be triggered, as used for example for loosening screws. The handle 12 is at least least in the working direction 17 movably formed to the housing 11. In particular, the handle 12 is rotatably configured about a pivot point 30, whereby a vibration-damping function is fulfilled. In the handle 12, a mechanical switch 13 is arranged, which is designed as a pawl. The pawl 13 is indirectly connected to a device body 10 arranged in the switching element 14 for actuating an electrical on-off switch 15. In the on-off switch 15, a potentiometer 24 is integrated. The switching element 14 is designed as a lever with an upper and a lower lever arm 20, 22. An electrical switching function arranged in the device body 10 and a mechanical switching function arranged in the handle 12 are thus formed separately, so that an oscillation load acting on the electrical switching function is advantageously reduced to a minimum. The switch 13 is pivotally mounted about a pivot point 18, and the switching element 14 about a pivot point 19. As a result, the vibrations acting on the individual components during operation of the power tool are optimally damped.

The indirect connection between the mechanical switch 13 and the switching element 14 is formed by a Bowden cable 16. The preferred from a

Plastic formed tubular sheath of the Bowden cable 16 is supported at its free ends on the stops 31, 32 from. The Bowden cable 16 is connected at its first free end to a lower lever arm 23 of the mechanical switch 13 and at its second free end to the upper lever arm 20 of the switching element 14th The electrical on-off switch 15 and the potentiometer 24 can be activated via a lever action between the lower lever arm 23 of the switch 13 and the upper lever arm 20 of the switching element 14. A lever ratio between the mechanical switch 12 and the switching element 14 is designed so that the on-off switch 15 a substantially directed against the direction of 17 switching path of a few millimeters, for example, less than 10mm is formed. The integrated in the on-off switch 15 potentiometer 24 is provided as a gas-generating function and is activated by a corresponding actuation path of the mechanical switch 13. The more the mechanical switch 13 is depressed, the more the accelerator function is activated.

Simultaneously with the actuation of the switch 13, the lower lever arm 22 of the switching element 14 is moved in the working direction 17 via the Bowden cable 16, wherein the lower lever arm 22 carries out a lever travel of a few millimeters in the above-mentioned interpretation of the lever ratios. In particular, the lever travel is smaller than the switching path on the on-off switch 15. As a result, a direct blocking function for the rotatable brush plate 25 is triggered. A rotation of the brush plate 25 about a motor axis 33 is thus blocked when the mechanical switch 12 is actuated by the lower lever arm 22 of the switching element 14 and thus not possible with the engine 34 running. It can thus be advantageously blocked a change in direction when the motor 34, whereby massive damage to the power tool can be prevented.

The conversion of the motor rotation direction by rotating the brush plate 25 can be made in the illustrated embodiment by not shown in FIG. 1 outwardly guided actuating ribs in the region of a commutator against a spring force.

In the figures 2 and 3 is a section through an alternative embodiment of a hammer drill according to the invention illustrated, wherein in each case a handle 12 in

Working direction 17 is designed to be movable in parallel. As a vibration-damping Elements are at an upper and a lower contact area between the handle 12 and the device body 10, an upper and a lower guide 35, 36 is formed. In Fig. 2, the mechanical switch 13 is in the handle 12 in an unactuated state; in Fig. 3, the switch 13 is actuated. Identical elements are denoted the same in the figures.

According to FIG. 1, a flexible and vibration-resistant Bowden cable 16 transmits a path of the pawl 13 movably mounted about a pivot point 18 to lever arms 20, 21, 22 of a switching element 14 arranged in the device body 10. The switching element 14 is in the form of a lever with three Lever arms 20, 21, 22 are formed and mounted movably about a pivot point 19. As shown in Fig. 1, the Bowden cable 16 is supported with its casing on stops 31, 32 from. A free end of the Bowden cable 16 is connected to a lower lever arm 23 of the pawl 13, and another free end to the lower lever arm 22 of the switching element 14. When operating the pawl 13, so when pressing against the working direction 17 (FIG. 2), the lower lever arm 23 of the pawl 13 moves along the working direction 17, whereby a tensile force acts on the cable surrounded by the sheath of the Bowden cable 16, which triggers a movement of the lower lever arm 22 counter to the working direction 17. This automatically activates an electrical on-off switch 15 and an integrated potentiometer 24 via the lever arm 21. The leverage ratios of switch 13 and switching element 14 are designed so that at the on-off switch 15, a switching path of a few millimeters, for example, less than 10mm is formed.

At the same time when operating the switch 13 via the Bowden cable 16 of the lever arm 20 is moved along the working direction 17, whereby a blocking function of the rotatable brush plate 25 is triggered. In contrast to the blocking function described in Fig. 1, this is not triggered directly here, but indirectly via a long switching lever 26. The switching lever 26 is rotatably mounted about a rotation axis 37. The switching lever 26 is connected via a slider 27th operated, wherein the slider 27 can be operated only in a defined position of a rotary switch 28 for a drilling operation. By the slider 27, an upper lever arm 26a of the switching lever 26 is operated. A lower lever arm 26b of the switching lever 26 can rotate the brush plate 25 by an angle, whereby a reversal of rotation is initiated. When the mechanical switch 13 is depressed or partially depressed, as illustrated in FIG. 3, a motor 34 is turned on. Due to the blocking effect, however, a reversal of direction by the brush plate 25 can not take place conveniently when the motor 34 is switched on and thus when the blocking function is activated by the lever arm 20 of the switching element 14.

In Fig. 4 is a plan view of a hammer drill according to the invention from above. With a mechanical rotary switch 28 different modes are adjustable. As an indicator for the set mode, an arrow is provided. In Fig. 4, the arrow points to the pictogram-like image of a screw thread, which is indicative of a normal drilling operation. There are also different hammer modes adjustable, with a screw thread used in conjunction with a hammer as a pictogram-like figure. It is desirable that a reversal of the direction of motor rotation is possible only in the normal drilling operation without a hammer, as it is set as shown in Fig. 4. The responsible for the switching of the engine rotation direction switching lever 26, which is not visible in Fig. 4, is operated by a slider 27. The slider 27 is operable only in a defined position of the rotary switch 28 for a drilling operation, wherein the defined position is achieved by a flattening 29 of the otherwise round rotary switch 28. In this position, the slider 27 can be axially confirmed or moved from a left to a right detent position. The slider 27 is easily actuated in this position with two fingers. In any other position of the rotary switch 28, the slider 27 can not be operated, because this is prevented by a cantilever 38 of the slider 27. Advantageously, it is thus prevented in a simple manner that the motor direction of rotation in the hammer operation, for example, from a clockwise to a Counterclockwise rotation is reversible, which could lead to massive damage to the power tool. The direction of rotation reversal is thus designed to be particularly user-friendly.

Claims

claims

1. Electric machine tool having a housing (11) arranged in a device body (10) and a handle (12), wherein in the handle (12) a switch (13) is arranged, characterized in that the switch (13) indirectly with a in the device body (10) arranged switching element (14) for actuating an electrical on-off switch (15) is connected.

2. Electric machine tool according to claim 1, characterized in that the indirect connection by a Bowden cable (16) is formed.

3. Electric machine tool according to claim 1 or 2, characterized in that the handle (12) at least in the working direction (17) is designed to be movable to the housing (11).

4. Electric machine tool according to one of the preceding claims, characterized in that the switch (13) and / or the switching element (14) in each case about a pivot point (18, 19) are pivotally mounted.

5. Electric machine tool according to one of the preceding claims, characterized in that the switching element (14) is designed as a lever with at least one upper and one lower lever arm (20, 22).

6. Power tool according to claim 5, characterized in that the Bowden cable (16) at its first end with a lower lever arm (23) of the switch (13) is connected and at its second end with one of the lever arms (20, 21, 22) of the Switching element (14) is connected.

7. Electric machine tool according to one of the preceding claims, characterized in that the electrical on-off switch (15) is connected to a potentiometer (24).

8. Electric machine tool according to claim 7, characterized in that the electrical on-off switch (15) and / or the potentiometer (24) via a lever action between the lower lever arm (23) of the switch (13) and the lever arms (20, 21 , 22) of the switching element (14) are activatable.

9. Electric machine tool according to one of the preceding claims, characterized in that upon actuation of the switch (13) via the Bowden cable (16) and one of the lever arms (20, 21, 22) of the switching element (14) has a blocking function for a rotatable brush plate ( 25) can be triggered.

10. Power tool according to claim 9, characterized in that the

Locking function via one of the lever arms (20, 21, 22) of the switching element (14) and a switching lever (26) is triggered.

11. Electric machine tool according to claim 10, characterized in that the switching lever (26) via a slide (27) is operable, wherein the slide (27) only in a defined position of a rotary switch (28) is operable for a drilling operation.

12. Electric machine tool according to claim 11, characterized in that the defined position of the rotary switch (28) in drilling operation by a flattening (29) on the rotary switch (28) can be fixed.