SLIDER ARRANGEMENT

Abstract

The invention relates to a slider arrangement (1) designed in particular as a wedge drive tool with a slider upper portion (10) and a slider lower portion (20) which, due to a relative movement with respect to the slider upper portion (10), can be displaced along guides (30) from an initial position into a working position and vice versa, wherein at least one return device (40) is provided in order to bring about the initial position of the slider upper portion (10) and slider lower portion (20), wherein the return device (40) comprises a screw plug (50) at the end in order to attach the return device (40) in a recess (11) of the slider arrangement (1), characterized in that the screw plug (50) comprises at least two rotation prevention means (51) which are designed to prevent a rotation of the screw plug (50) beyond a maximum acceptable rotation angle α.

Claims

1. A slider arrangement (1) designed in particular as a wedge drive tool with a slider upper portion (10) and a slider lower portion (20) which, due to a relative movement with respect to the slider upper portion (10), can be displaced along guides (30) from an initial position into a working position and vice versa, wherein at least one return device (40) is provided in order to bring about the initial position of the slider upper portion (10) and slider lower portion (20), wherein the return device (40) comprises a screw plug (50) at the end in order to attach the return device (40) in a recess (11) of the slider arrangement (1), characterized in that the screw plug (50) comprises at least two rotation prevention means (51) which are designed to prevent a rotation of the screw plug (50) beyond a maximum acceptable rotation angle α, preferably by positive locking on an attachment means (60).

2. The slider arrangement (1) according to claim 1, wherein, on the slider arrangement (1), at least two mounting positions (M1, M2) or mounting variants for each identical and detachable attachment means (60) are provided, wherein, during the mounting, one of the attachment means (60) of at least one of the rotation prevention means (51) on the screw plug (50) prevents the rotation of the screw plug (50) beyond a maximum acceptable rotation angle α.

3. The slider arrangement (1) according to claim 1, wherein the screw plug (50) comprises multiple rotation prevention means (51) arranged on the circumference of a screw head (52), arranged at an equidistant spacing when viewed in circumferential direction.

4. The slider arrangement (1) according to claim 1, wherein a screw plug head (52) of the screw plug is not round when viewed in cross section and forms a wavy outer contour.

5. The slider arrangement (1) according to claim 1, wherein the multiple rotation prevention means (51) extend radially outward transversely with respect to the screw axis and thus transversely away from a screw head (52) of the screw plug (50).

6. The slider arrangement (1) according to claim 1, wherein the rotation prevention means (51) are provided as peaks, projections, protrusions or bosses on a screw head (52) of the screw plug (50).

7. The slider arrangement (1) according to claim 1, wherein the two mounting positions (M1, M2) for an attachment means (60) are provided on the slider arrangement (1) so that the attachment means (60) in each case can be mounted in only one of the two mounting positions (M1, M2) and, in particular, a mounting of the attachment means (60) is prevented by the position of one of the rotation prevention means (51).

8. The slider arrangement (1) according to claim 1, wherein the respective mounted attachment means (60) has such a form or a protruding projection (65), by means of which the attachment means (60) extends into the region within an envelope contour of a screw head (52) of the screw plug (50).

9. The slider arrangement (1) according to claim 1, wherein the respective mounted attachment means (60) has a round cross-sectional form by means of which the attachment means (60) extends at least partially into the region within an envelope contour of a screw head (52) of the screw plug (50).

10. The slider arrangement (1) according to claim 1, characterized in that a screw head (52) of the screw plug (50) internally has an engagement contour (55) for a tool, preferably a recess (55) for a hex key or semicircular key.

Description

[0021] Other advantageous developments of the invention are characterized in the dependent claims or represented in greater detail below together with the description of the preferred embodiment of the invention in reference to the figures.

[0022] The figures show:

[0023] FIG. 1 an isometric view of an exemplary wedge drive tool with a slider upper portion and a slider lower portion;

[0024] FIG. 2 an isometric view of a portion of the wedge drive tool from FIG. 1;

[0025] FIG. 3 an isometric view of a portion of a wedge drive tool with a partial cross-sectional view in the region of the return device;

[0026] FIG. 4 a cross-sectional view through a wedge driving tool;

[0027] FIG. 5 a view onto a first embodiment example of the implementation of a rotation prevention means

[0028] FIG. 6 a view onto the embodiment example according to FIG. 5 in another rotational position;

[0029] FIG. 7 a view onto an alternative embodiment example of the implementation of a rotation prevention means;

[0030] FIG. 8 a view onto the embodiment example according to FIG. 7 in another rotational position.

[0031] The figures are exemplary diagrams. Identical reference numerals in the figures designate identical functional and/or structural features.

[0032] In FIG. 1, an isometric view of an exemplary wedge drive tool 1, in general a slider arrangement 1, is shown. This slider arrangement 1 has a slider upper portion 10 and a slider lower portion 20 which, due to a relative movement with respect to the slider upper portion 10 can be displaced along guides 30 from an initial position into a working position and vice versa.

[0033] The bracket 31 holds the components in the guide 30. However, this could also be implemented differently and is not relevant for the present invention.

[0034] In FIG. 2, an isometric view of a portion of the wedge drive tool 1 from FIG. 1 is shown, wherein the return device 40 is shown in a non-mounted position for a better understanding of the invention. In this figure, an attachment means 60 is represented, as is used in the solution according to the embodiment examples according to FIGS. 7 and 8. For such an embodiment, only a single mounting position M1 for the attachment means 60 is provided. Depending on the final rotational position in which the screw plug 50 is mounted in its mounting position, the attachment means 60 shown can be mounted only in a certain orientation, in which the projection 65 of the attachment means is positioned either below or above the projection 51 of the screw plug 50. These two mounting positions of the attachment means 60 are shown in FIGS. 7 and 8. And likewise, the corresponding rotational position of the screw plug 50. The protruding projection 65 of the attachment means 60 extends in each case into the region within the envelope contour of the screw head 52, which is represented with dotted lines. During the rotation on the screw plug 50, said screw plug is blocked by the projection 65.

[0035] In FIG. 3, an isometric view of the portion of the wedge drive tool 1 according to a conventional solution with a partial cross-sectional view in the region of the return device 40 can be found. The screw plug is secured by a washer against unscrewing. This securing is a not positive locking; the force acts (cyclically) axially on the locking screw.

[0036] The return device 40 is designed to bring about the initial position of the slider upper portion 10 and slider lower portion 20 in the tool. Moreover, it can be seen that the return device 40 comprises said screw plug 50 at the end in order to attach the return device 40 in a recess 11 of the slider arrangement 1, which can be seen more clearly in the view of FIG. 4. In order to limit the rotation angle α of the screw plug 50, said screw plug cooperates with the attachment means 60 which is also shown.

[0037] In FIGS. 5 to 8, embodiment examples of the implementation of the rotation prevention means are shown. In each case, the front view onto the region with the screw plug 50 can be seen. For this purpose, in the examples shown, the screw plug 50 in each case comprises 5 rotation prevention means 51 in the form of projections extending radially outward, thus transversely with respect to the direction of actuation of the return device 40. Another number of the projections 51 is also conceivable.

[0038] For the mounting of the attachment means 60, in the embodiment according to FIGS. 5 and 6, two alternative mounting positions M1, M2 are provided, wherein, depending on the angular position of the screw plug 50, only a mounting in one of the two mounting positions M1, M2 is possible, while the respective other mounting position is blocked or partially covered by a projection 51 or a protrusion of the rotation prevention means 51. These two mounting possibilities are shown for the embodiment example in FIGS. 5 and 6.

[0039] The rotation prevention means 51 shown are provided on the screw head 52. In all the embodiment variants, the rotation of the screw plug 50 beyond a maximum acceptable rotation angle α is prevented (indicated by the two dotted lines in FIG. 5 and the angle α in between). To the extent that the rotation prevention means 51 are arranged at an equidistant spacing when viewed in circumferential direction, the maximum acceptable rotation angle α with respect to the positions of the rotation prevention means 51 is always the same size, wherein, depending on the angular position of the screw plug 50, the actually possible rotation angle can also turn out to be smaller.