The invention relates to a portable power tool having at least one machine-side contact element.
Portable power tools according to the preamble of the independent claim are already known from the prior art,
The portable power tool according to the invention and having the features of the independent claim is configured in particular as an angle grinder, In portable power tools of this kind, a particular requirement is to increase the safety for an operator of the portable power tool. This includes, inter a 11a, monitoring as to whether safety-relevant accessories such as a protective hood or an auxiliary handle have been fitted.
The portable power tool according to the invention has at least one transmission housing part. A safety-relevant accessory has, according to the invention, at least one accessory-side contact element. It is proposed that the machine-side contact element and the accessory-side contact element be releasably connectable together. It is thus advantageously possible to ensure that the safety-relevant accessory can be fitted on the portable power tool.
By way of the features specified in the dependent claims, advantageous developments of the fastening unit according to the invention as claimed in claim 1 are possible.
In one advantageous embodiment, the accessory is configured as an auxiliary handle. The auxiliary handle is advantageously provided in particular to be gripped by an operator of the portable power tool. In this way, the safety of using the portable power tool can advantageously be increased in that the portable power tool is operated with two hands.
In a further advantageous embodiment, the accessory is embodied as a protective hood. The protective hood is advantageously intended to protect an operator of the portable power tool, when the portable power tool is in operation, from sparks and/or material particles which arise during operation of the portable power tool, and/or from fragments, thrown out with great force, of a disk that has shattered during operation.
Advantageously, a blocking element is arranged in the transmission housing part, said blocking element being intended to block a mechanical element when the accessory is not fitted, such that the portable power tool cannot be switched on. In this way, safe operation of the portable power tool can advantageously be ensured.
According to the invention, the mechanical element is embodied as a switch element. Advantageously, the switch element is arranged in the motor housing part. If the blocking element has a stop, the sliding switch moves against the stop of the blocking element when the accessory is not fitted. This advantageously ensures that the portable power tool is not switched on when the accessory is not fitted. As a result, safe operation of the portable power tool is advantageously ensured.
In one advantageous embodiment, the mechanical element is embodied as a mechanical shaft, in particular as a motor shaft.
In a further advantageous embodiment, the mechanical element is embodied as an output shaft, in particular as a spindle.
According to the invention, the blocking element has a rotary joint.
Advantageously, with the accessory fitted, the blocking element is subjected to a force and moved about an axis of rotation of the rotary joint. Thus, as a result of the blocking element being rotated about the axis of rotation of the rotary joint, the stop of the blocking element can advantageously be moved such that the sliding switch can switch on the portable power tool (10).
Further advantageous and expedient embodiments can be gathered from the description of the FIGS. and from the drawings.
Embodiments of a portable power tool according to the invention are shown in the drawings.
In the drawings:
The same reference numerals are used for the same components that appear in the different embodiments.
As can be seen in
An accessory 26 is intended to be connected to the portable power tool 10. The accessory 26 has an accessory-side contact element 28. Accessory-side means that the contact element 28 is arranged in the accessory 26 for the portable power tool 10. In the exemplary embodiment according to
As illustrated in
The object of the protective hood 26b is to protect an operator of the portable power tool 10, when the portable power tool 10 is in operation, from sparks and/or material particles which arise during operation of the portable power tool, and/or from fragments, thrown out with great force, of a disk that has shattered during operation.
As can be seen in
The mechanical element 32 is a switch element 32 in the exemplary embodiment in
In the exemplary embodiment according to
When the auxiliary handle 26a is not fitted, the sliding switch 32 is not movable further in the direction of the transmission housing 12, since it moves against the stop 42 of the blocking element 30. If the auxiliary handle 26a is fitted, the blocking element 30 is subjected to a force F. The blocking element 30 rotates about an axis of rotation 50 of the rotary joint 40 in the process. As a result of the blocking element 30 rotating about the axis of rotation 50 of the rotary joint 40, the stop 42 of the blocking element 30 rotates in a direction R and is no longer an obstacle for the sliding switch 32. In the case of the fitted auxiliary handle 26a, the sliding switch 32 can accordingly be moved in the direction of the transmission housing 12 and switch on the portable power tool 10.
A restoring force ensures that the blocking element 30 returns into its starting position when the auxiliary handle 26a is removed. The restoring force can be created in that the blocking element 30 is elastically deformable. However, it is also conceivable for an additional element (not shown), for example a restoring spring, to be integrated.
Furthermore,
The protective hood 26b has a protective hood collar 60. If the protective hood 26b and thus the protective hood collar 60 is fitted on the portable power tool 10, the blocking element 30 is actuated, said blocking element 30 rotating about its axis of rotation 50 of the rotary joint 40. As a result of the blocking element 30 being rotated about the axis of rotation 50 of the rotary joint 40, the stop 42 of the blocking element 30 rotates in a direction R and is no longer an obstacle for the sliding switch 32. In the case of the fitted auxiliary handle 26a, the sliding switch 32 can accordingly be moved in the direction of the transmission housing 12 and switch on the portable power tool 10.
In the exemplary embodiment in
A restoring force ensures that the blocking element 30 returns into its starting position when the protective hood 26b is removed. The restoring force can be created in that the blocking element 30 is elastically deformable. However, it is also conceivable for an additional element (not shown), for example a restoring spring, to be integrated.
In the exemplary embodiment in
The blocking element 30 is mounted in a translational manner in a bearing flange 64. If the protective hood 26b is fitted, the blocking element 30 is subjected to a force F and moved from the position B into the position A, as can be seen in
A restoring force ensures that the blocking element 30 returns into its starting position when the protective hood 26b is removed. The restoring force is created by a restoring spring 66.
In the embodiments according to
If the portable power tool 10 has a brake system, the brake is releasable only in the fitted state of the accessory 26.
Number | Date | Country | Kind |
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10 2015 224 006.1 | Dec 2015 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/076374 | 11/2/2016 | WO | 00 |