Screwdriver having a changeable direction freewheel lock

Abstract

A screwdriver having a changeable direction freewheel lock, having a drive output member that is mounted so as to be rotatable about an axis in a bearing eye of a drive input member and has a circumferential toothing and a drive-output profile portion, and locking members that are inserted in a pocket of the drive input member and each have a locking toothing for engaging with the circumferential toothing in a manner preventing rotation. What is essential is that the locking members are two bodies that are movable relative to one another, can be displaced in an articulated manner with respect to one another and each have a switching extension which project into the same switching recess of a switching member.

Claims

1. A screwing tool with a directionally reversible freewheel lock, comprising a drive output member, which is mounted in a bearing eye of a drive input member so as to be rotatable about an axis and features a circumferential toothing and a drive output profile section, as well as locking members, which are inserted into a pocket of the drive input member and respectively feature a locking toothing for engaging into the circumferential toothing in a rotationally locking manner, wherein the locking members are two bodies that can be displaced relative to one another, wherein the two locking members are tied to one another in an overlapping region by means of hook-type projections engaging into one another.

2. The screwing tool according to claim 1, wherein the locking members can be displaced relative to one another in an articulated manner, wherein the locking toothing of each locking member features teeth, which in an engaged position with the circumferential toothing extend on a circular arc line around the axis.

3. The screwing tool according to claim 2, wherein the locking members respectively feature a switching extension, which protrude into a common switching recess of a switching member.

4. The screwing tool according to claim 2, wherein the two locking members are tied to one another in an overlapping region by means of hook-type projections engaging into one another.

5. The screwing tool according to claim 1, wherein the locking members respectively feature a switching extension, which protrude into a common switching recess of a switching member.

6. The screwing tool according to claim 5, wherein the switching extensions are acted upon by a spring-loaded control flank in such a way that only one of the two locking toothings is respectively engaged with the circumferential toothing in two switching positions, in which the rotatability of the drive output member relative to the drive input member is respectively blocked in a different rotating direction.

7. The screwing tool according to claim 6, wherein both locking toothings are simultaneously engaged with the circumferential toothing when the switching element is switched into an intermediate position.

8. The screwing tool according to claim 6, wherein the switching member is for the directional reversal of the freewheel lock inserted into a bore of the drive input member, which allows a rotation of the switching member, by displacing the locking members in the azimuthal direction referred to the axis from a locking interstice into a locking interstice lying opposite thereof in the azimuthal direction, wherein the locking interstices are formed by contact flanks and sections of the circumferential toothing.

9. The screwing tool according to claim 6, wherein the switching member features a switching plunger that forms the control flank and is acted upon by a switching spring.

10. The screwing tool according to claim 5, wherein both locking toothings are simultaneously engaged with the circumferential toothing when the switching element is switched into an intermediate position.

11. The screwing tool according to claim 5, wherein the switching member is for the directional reversal of the freewheel lock inserted into a bore of the drive input member, which allows a rotation of the switching member, by displacing the locking members in the azimuthal direction referred to the axis from a locking interstice into a locking interstice lying opposite thereof in the azimuthal direction, wherein the locking interstices are formed by contact flanks and sections of the circumferential toothing.

12. The screwing tool according to claim 1, wherein a switching spring is supported on a detent plunger and features a detent element, which in the switching position engages into a detent recess.

13. A screwing tool with a directionally reversible freewheel lock, comprising a drive output member, which is mounted in a bearing eye of a drive input member so as to be rotatable about an axis and features a circumferential toothing and a drive output profile section, as well as locking members, which are inserted into a pocket of the drive input member and respectively feature a locking toothing for engaging into the circumferential toothing in a rotationally locking manner, wherein the locking members are two bodies that are displaceable relative to one another, wherein the locking members respectively feature a switching extension, which protrude into a common switching recess of a switching member, wherein the switching extensions are acted upon by a spring-loaded control flank in such a way that only one of the two locking toothings is respectively engaged with the circumferential toothing in two switching positions, in which the rotatability of the drive output member relative to the drive input member is respectively blocked in a different rotating direction, wherein the switching member features a switching plunger that forms the control flank and is acted upon by a switching spring.

14. The screwing tool according to claim 13, wherein a curved surface of the switching plunger forming the control flank engages on the end of the switching extension.

15. The screwing tool according to claim 13, wherein the switching spring is supported on a detent plunger and features a detent element, which in the switching position engages into a detent recess.

16. A screwing tool with a directionally reversible freewheel lock, comprising a drive output member, which is mounted in a bearing eye of a drive input member so as to be rotatable about an axis and features a circumferential toothing and a drive output profile section, as well as locking members, which are inserted into a pocket of the drive input member and respectively feature a locking toothing for engaging into the circumferential toothing in a rotationally locking manner, wherein the locking members are two bodies that can be displaced relative to one another, wherein a switching spring is supported on a detent plunger and features a detent element, which in the switching position engages into a detent recess.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention is described in greater detail below with reference to exemplary embodiments. In the drawings:

(2) FIG. 1 shows a perspective representation of a screwing tool in the form of a wrench with an open-end profile on one end and a box profile on the opposite end;

(3) FIG. 2 shows a top view of the screwing tool;

(4) FIG. 3 shows the enlarged detail III in FIG. 2 and is broken open in such a way that the freewheel lock is visible, wherein the freewheel lock assumes such an operating position that a drive output member 2 can be rotated relative to a drive input member 1 in the counterclockwise direction;

(5) FIG. 4 shows a representation according to FIG. 3, however, when a switching member 3 is switched into an intermediate position;

(6) FIG. 5 shows a representation according to FIG. 3, in which the freewheel lock allows a rotation of the drive output member 2 relative to the drive input member 1 in the clockwise direction;

(7) FIG. 6 shows the section along the line VI-VI in FIG. 4;

(8) FIG. 7 shows a first exploded view of the elements of the freewheel lock, and

(9) FIG. 8 shows a second exploded view of the elements of the freewheel lock.

DETAILED DESCRIPTION

(10) The screwing tool illustrated in the drawings has an external shape of the type illustrated and described in DE 10 2014 113 758 A1. The screwing tool comprises an elongate drive input member 1 that has an open-end wrench profile on one free end and a bearing eye 6 on its opposite free end. An annular drive output member 2 with a drive output profile in the form of a polygonal socket profile is rotatably mounted in the bearing eye 6. However, the drive output member 2 may also have a different shape and, for example, form a drive output polygon, which then in turn forms the drive output profile. The drive output member 2 features a circumferential toothing 5 with a plurality of teeth that point radially outward and the linear tooth flanks of which are realized in a roof-like manner.

(11) A pocket is located in a circumferential region of the bearing eye 6 and forms two locking interstices 17, 27 that lie opposite of one another in the circumferential direction. The locking interstices 17, 27 are formed by walls 18, 28 of the pocket, which extend from a bearing bore for mounting a switching member 3 up to the radially inner edge of the bearing eye 6 in an arc-shaped manner and an extension of which intersects the circumferential toothing 9.

(12) Two locking members 10, 20 formed by separate bodies are mounted in the pocket 17, 27 and form locking bodies that contact one another and sectionally also lie on top of one another in overlapping regions 15, 25, but are assigned to one another in a pivotable manner. The locking members 10, 20 are realized folding-symmetrical to one another. They have an L-shape that extends in the plane of motion, wherein one L-limb is formed by an arm 19, 29 and a second L-limb is formed by a switching extension 13, 23. The two arms 19, 29 point away from one another. The switching extensions 13, 23 are arranged adjacent to the respective overlapping regions 15, 25 and overlap one another.

(13) The two locking members 10, 20 are coupled to one another in an articulated manner. To this end, they respectively form a hook-type projection 32 in the overlapping region 15, 25. The two hook-type projections respectively engage into a recess. The two hook-type projections 32 have a sufficient motion clearance for pivoting the locking members 10, 20 relative to one another.

(14) The switching extension 13, 23 forms a longitudinal flank that points toward the arm 19, 29 and transforms into a concavity 16, 26, adjacent to which a contact flank 12, 22 is arranged. The arm 19, 29 has two longitudinal flanks that essentially extend parallel to one another and transform into one another in a rounded or pointed manner on the free end 14, 24 of the switching extension 13, 23.

(15) The contact flank 12, 22 transforms into a locking toothing 11, 21 by forming an acute angle. The locking toothing 11, 21 respectively extends on a circular arc line, the radius of which corresponds to the radius of the circular arc line, along which the circumferential toothing 5 extends. The locking toothing 11, 21 extends as far as into the overlapping region 15, 25, in which sections of the switching members 10, 20, which also include the switching extensions 13, 23, lie on top of one another in the direction of the axis a.

(16) The switching extensions 13, 23 engage into a switching recess 30 in the form of a radial opening of a cavity of the switching member 3. A switching plunger 7 is located within the cavity of the switching member 3 and has a curved surface 7, which points radially outward and forms a control flank. A switching spring 8 is supported on a detent plunger 9 and acts upon the switching plunger 7 in the radially outward direction. The detent plunger 9 acts upon a detent ball 33, which can engage into one of two detent recesses 31 in order to rotationally inhibit the switching member 3 in one of its two switching positions. The free end 14, 24 of the switching extension 13, 23 forms crown surfaces that point away from one another and on which the switching flank 7 engages in order to exert a spring force upon the locking member 10, 20.

(17) In a first switching position, in which the locking member 10 is located in the locking interstice 17 and rests against the wall 18 of the locking interstice 18 with its contact flank 12, the locking toothing 11 of the locking member 10 engages into the circumferential toothing 5 (see FIG. 3). When a torque is exerted upon the drive output member 2 in the clockwise direction, the drive output member 2 cannot rotate within the bearing eye 6. The locking member 10 becomes wedged in the locking interstice 17.

(18) The control flank 7 acts upon a crown flank of the free end 14 of the switching extension 13 in the direction of the locking interstice 17. In this case, the control flank 7 engages on the longitudinal flank of the switching extension 13 that points away from the locking toothing 11.

(19) The control flank 7 engages on a crown flank of the free end 24 of the switching member 20 in such a way that the locking toothing 21 of the locking member 20 does not engage into the circumferential toothing 5.

(20) When a torque is exerted upon the drive output member 2 in the counterclockwise direction, the locking member 10 can be displaced in the direction out of the locking interstice 17, wherein the contact flank 12 slides along the wall 18 and the locking toothing 11 disengages from the circumferential toothing 5 such that the drive output member 2 can be freely rotated relative to the drive input member 1.

(21) For the switch-over, the switching member 3 is rotated in the clockwise direction, wherein the free end 14, 24 of the switching extension 13, 23 of the locking member 10, 20 slides along the control flank 7. In an intermediate position, the crown regions of the ends 14, 24 are acted upon by the control flank 7 in such a way that the locking members 10, 20 are displaced relative to one another in an articulated manner. In this intermediate position, both locking toothings 11, 21 engage into the circumferential toothing 5. In this case, the two locking members 10, 20 pivot about their articulated connection, which is in the exemplary embodiment formed by the two hook-type projections 32 engaging into one another, until the switching extensions 13, 23 reach a congruently overlapping position.

(22) Based on this intermediate position illustrated in FIG. 4, in which the locking toothings 11, 21 of both locking members 10, 20 are simultaneously engaged with the circumferential toothing 5, the switching member 3 is for the switch-over additionally displaced in the clockwise direction and now acts upon the longitudinal flank of the arm 29 of the locking member 20 pointing away from the locking toothing 21 and the longitudinal flank of the arm 19 of the locking member 10 pointing toward the locking toothing 11. This once again causes an articulated motion of the two locking members 10, 20 relative to one another. In the process, the locking toothing 11 of the locking member 10 disengages from the circumferential toothing 5.

(23) In the end position, the locking member 20 is acted upon into the associated locking interstice 27 by the force of the switching spring 8 such that the contact flank 22 is supported on the wall 28 of the locking interstice 27 and the locking toothing 21 of the locking member 20 engages into the circumferential toothing 5. The locking toothing 11 of the locking member 10, which in this switching position performs a non-locking function, is located outside the circumferential toothing 5 (see FIG. 5).

(24) The two locking members 10, 20 are designed in such a way that the two locking toothings 11, 21 extend along the same circular arc when the two switching extensions 13, 23 congruently lie on top of one another. When the rotating direction is changed, the control flank 7 acts upon the crown regions of the switching extensions 13, 23, which are not in an overlapping position, so as to pivot the locking members 10, 20 relative to one another in such a way that the two switching extensions 13, 23 assume an overlapping position in an intermediate position, but are once again displaced from the overlapping position into a non-overlapping position during the further pivoting motion of the switching member 3.

(25) The preceding explanations serve for elucidating all inventions that are included in this application and respectively enhance the prior art independently with at least the following combinations of characteristics, namely:

(26) A screwing tool, which is characterized in that the locking members 10, 20 are two bodies that can be displaced relative to one another.

(27) A screwing tool, which is characterized in that the locking members 10, 20 can be displaced relative to one another in an articulated manner, wherein the locking toothing 11, 21 of each locking member 10, 20 features teeth, which in an engaged position with the circumferential toothing 5 extend on a circular arc line around the axis a.

(28) A screwing tool, which is characterized in that the locking members 10, 20 respectively feature a switching extension 13, 23, which protrude into the same switching recess 30 of a switching member 3.

(29) A screwing tool, which is characterized in that the switching extensions 13, 23 are acted upon by a spring-loaded control flank 7 in such a way that only one of the two locking toothings 11, 21 is respectively engaged with the circumferential toothing 5 in the two switching positions, in which the rotatability of the drive output member 2 relative to the drive input member 1 is respectively blocked in a different rotating direction.

(30) A screwing tool, which is characterized in that both locking toothings 11, 21 are simultaneously engaged with the circumferential toothing 5 when the switching member 3 is switched into an intermediate position.

(31) A screwing tool, which is characterized in that the switching member 3 is for the directional reversal of the freewheel lock inserted into a bore of the drive input member 1, which allows a rotation of the switching member 3, by displacing the locking members 10, 20 in the azimuthal direction referred to the axis a from a locking interstice 17 into a locking interstice 27 lying opposite thereof in the azimuthal direction, wherein the locking interstices 17, 27 are formed by contact flanks 12, 22 and sections of the circumferential toothing 5.

(32) A screwing tool, which is characterized in that the two locking members 10, 20 are tied to one another in an overlapping region 15, 25 by means of hook-type projections engaging into one another.

(33) A screwing tool, which is characterized in that the switching member 3 features a switching plunger 7 that forms the control flank 7 and is acted upon by a switching spring 8.

(34) A screwing tool, which is characterized in that the curved surface of the switching plunger 7 forming the control flank 7 engages on the end 14, 24 of the switching extension 13, 23 and/or that the switching spring 8 is supported on a detent plunger 9 and features a detent element 33, which in the switching position engages into a detent recess 31.

(35) All disclosed characteristics are essential to the invention (individually, but also in combination with one another). The disclosure content of the associated/attached priority documents (copy of the priority application) is hereby fully incorporated into the disclosure of this application, namely also for the purpose of integrating characteristics of these documents into claims of the present application. The characteristic features of the dependent claims characterize independent inventive enhancements of the prior art, particularly for submitting divisional applications on the basis of these claims.