The invention relates to a power screwdriver having a low-noise torque clutch.
In power screwdrivers for driving screws, upon attaining a pre-defined torque the spring force flow from the drive motor to the screw tool is interrupted to avoid excessive driving of the screw. Conventionally, ratchet couplings with two ratchet parts that are spring biased relative to each other are used as torque clutches and each have peripherally inclined beveled cams. The drawback in this type of simple ratchet coupling is the annoying, loud “chattering”, which also results in increased wear of the ratchet coupling.
U.S. Pat. No. 4,655,103 discloses a power screwdriver with a low noise torque clutch, wherein the ratchet coupling is combined with a claw coupling using a common coupling sleeve, wherein a ratchet spring is arranged between the driven ratchet part and the coupling sleeve.
According to U.S. Pat. No. 6,109,149, a power screwdriver has a low-noise torque clutch, which comprises a ratchet coupling and a claw coupling that are combined using a common, axially displaceable, freely rotational coupling sleeve, wherein the ratchet coupling has oppositely oriented peripherally inclined beveled cams and the claw coupling has oppositely oriented, peripheral linear catches. A rigid ratchet spring is arranged between the freely rotational driven ratchet part on the tool shaft and a slack clutch spring is arranged between the driving coupling part connected to the tool shaft and the coupling sleeve. By means of this axial serial arrangement, a high contact pressure of the power screwdriver against the work piece to overcome the rigid ratchet spring is required to engage the ratchet coupling by the axial displacement of the tool shaft and to activate the torque transmission. In addition, this high contact force results in a high quantity of friction heat in the springs rubbing against each other in the override operation.
The object of the invention is to provide a power screwdriver with a low-noise torque coupling, which requires a low contact force for activating torque transmission. A further object of the invention is to reduce the quantity of frictional heat in the override operation.
This object is achieved in accordance with the invention by a power screwdriver with a rotationally driven, axially displaceable mounted tool spindle having a low-noise torque clutch. The clutch comprises a combination of a driven ratchet coupling biased by a rigid ratchet spring with a driving claw coupling that is biased using a stack clutch spring, which are combined using a common, axially displaceable, freely rotating coupling sleeve. The ratchet coupling has opposing oriented peripheral inclined beveled cams and the claw coupling has opposing oriented peripheral linear catches. The driven ratchet part and the coupling sleeve are arranged freely rotational on an intermediate sleeve, which is mounted on the tool spindle to be freely rotational and axially displaceable. The ratchet spring is arranged between the intermediate sleeve and the coupling sleeve and the clutch spring is arranged between the intermediate sleeve and the tool spindle.
By virtue of the intermediate sleeve being fixed to the driven ratchet part, the rigid ratchet spring is uncoupled relative to a displacement of the tool spindle. Consequently, upon application of the power screwdriver against the work piece it is not its high spring force that must be overcome but the weak spring force of the slack clutch spring. The quantity of frictional heat of the springs rubbing in override operation is correspondingly lower.
The intermediate sleeve advantageously has a radial outer flange on the drive side, whereby a flush stop in the direction of the driven ratchet part relative to a drive-side displacement of the intermediate sleeve can be realized relatively simply.
Advantageously, a locking ring is affixed on the drive-side to the intermediate sleeve, whereby an easily assembled drive-side stop for the ratchet spring is provided.
Advantageously, the intermediate sleeve has a front open, coaxial inner step on the driving side, whereby a flush, driving-side stop for the clutch spring can be realized in a technologically simple fashion.
Advantageously, the tool spindle in the axial zone of the claw coupling forms a driving-side radial shoulder, whereby a positive, driving-side stop for the clutch spring can be realized in a technologically simple fashion.
The function of the low-noise torque clutch corresponds to the clutch described in detail in DE 19844064, in that after exceeding a pre-defined torque for the first-time the ratchet coupling uncouples against the spring force of the rigid ratchet spring and consequently the coupling sleeve and the tool spindle is displaced on the driving side. With the next clutch intervals, the ratchet coupling closes by virtue of the spring force of the rigid ratchet spring and together with the ratchet spring, the coupling sleeve is displaced on the driven side by virtue of the spring force of the slack clutch spring and thus uncouples in the override operation.
The invention is described more completely with reference to the drawings, wherein:
In accordance with the invention,
Number | Date | Country | Kind |
---|---|---|---|
103 60 282 | Dec 2003 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
1881728 | Levedahl | Oct 1932 | A |
2884103 | Connell | Apr 1959 | A |
4630512 | Durr | Dec 1986 | A |
4655103 | Schreiber et al. | Apr 1987 | A |
4947714 | Fluri | Aug 1990 | A |
5138916 | Sato et al. | Aug 1992 | A |
5538089 | Sanford | Jul 1996 | A |
6109149 | Neumaier | Aug 2000 | A |
6739225 | Bader et al. | May 2004 | B1 |
20050126802 | Ludwig et al. | Jun 2005 | A1 |
Number | Date | Country |
---|---|---|
2283213 | Mar 2000 | CA |
102004011068 | Jun 2005 | DE |
Number | Date | Country | |
---|---|---|---|
20050150735 A1 | Jul 2005 | US |