TOOL-FREE FRONT ATTACHMENT FITTING

Abstract

A fitting part for tool-free fastening in a bore in a panel includes a radially outwardly expandable expansion sleeve for insertion into the bore and a fitting housing, which is mounted in the expansion sleeve so as to be rotatable about an axis of rotation between a starting rotary position and a final rotary position, has a lever arm which is arranged outside the expansion sleeve and has a latching device, and has an expansion contour which is arranged inside the expansion sleeve and, upon rotation of the fitting housing in the expansion direction of rotation from the starting rotary position to the final rotary position, expands the expansion sleeve radially outwards.

Claims

1. A fitting part for tool-free fastening in a bore in a panel, comprising: a radially outwardly expandable expansion sleeve for insertion into the bore; and a fitting housing mounted in the expansion sleeve so as to be rotatable about an axis of rotation between a starting rotary position and a final rotary position; the fitting housing having a lever arm which is arranged outside the expansion sleeve and has a latching device; the fitting housing having an expansion contour which is arranged inside the expansion sleeve; and wherein upon rotation of the fitting housing about the axis of rotation in an expansion direction of rotation from the starting rotary position to the final rotary position, the expansion sleeve expands radially outwards.

2. The fitting part according to claim 1, wherein the expansion contour is embodied as an external contour that is eccentric or oval with respect to the axis of rotation.

3. The fitting part according to claim 1, wherein the expansion contour exhibits its maximum spacing from the axis of rotation in the direction of the lever arm or at right angles thereto.

4. The fitting part according to claim 1, wherein a front side, in the expansion direction of rotation, of the lever arm has a set-back side contour, as seen in the expansion direction of rotation, at a free end of the lever arm.

5. The fitting part according to claim 4, wherein the set-back side contour is point symmetric with respect to an axis of symmetry that extends parallel to the axis of rotation and lies in a radial plane of the axis of rotation.

6. The fitting part according to claim 4, wherein the set-back side contour is configured in a parallel or oblique manner with respect to the radial plane of the axis of rotation or in a stepped or S-shaped manner.

7. The fitting part according to claim 1, wherein the latching device has a latching protrusion and a latching recess.

8. The fitting part according to claim 7, wherein the latching protrusion and the latching recess are arranged on two end faces, remote from the axis of rotation, of the lever arm in a point symmetric manner with respect to an axis of symmetry that extends parallel to the axis of rotation and lies in a radial plane, extending parallel to the lever arm, of the axis of rotation.

9. The fitting part according to claim 1, wherein the fitting housing has a shank which is mounted in a bearing opening of the expansion sleeve so as to be rotatable about the axis of rotation.

10. The fitting part according to claim 1, wherein the expansion sleeve is slotted and clip-fastened onto a shank of the fitting housing.

11. The fitting part according to claim 1, wherein the fitting housing has an attachment element for attaching to a further element.

12. The fitting part according to claim 11, wherein the attachment element is in the form of a rod which extends at right angles to the lever arm.

13. A fitting comprising two identical fitting parts according to claim 1, wherein, when the two fitting parts are arranged in a manner rotated through 180° with respect to one another, their lever arms are oriented along a line, the free ends of the two lever arms bear against one another at their end faces, and the latching devices of the two fitting parts cooperate with one another.

14. An arrangement comprising the panel with two bores and comprising the fitting according to claim 13, wherein the one fitting part is inserted by way of its expansion sleeve into the one bore and the other fitting part is inserted by way of its expansion sleeve into the other bore, each fitting part being rotated into the final rotary position, and wherein, in the final rotary positions of the two fitting parts, the two fitting parts are arranged in a manner rotated through 180° with respect to one another, their lever arms are oriented along a line, the free ends of the two lever arms bear against one another at their end faces, and the latching devices of the two fitting parts cooperate with one another.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] In the drawings:

[0014] FIGS. 1a-1c show the fitting part according to the invention in a perspective view (FIG. 1a), in a longitudinal section (FIG. 1b) and in an exploded illustration (FIG. 1c);

[0015] FIGS. 2a, 2b, 2c show a detail view of an expansion sleeve, shown in FIG. 1, of the fitting part according to the invention in a side view (FIG. 2a and FIG. 2c) and in a plan view (FIG. 2b);

[0016] FIGS. 3a, 3b show the fitting part according to the invention in a non-expanded starting rotary position (FIG. 3a) and an expanded final rotary position (FIG. 3b);

[0017] FIG. 4 shows a front attachment fitting according to the invention that is made up of two fitting parts according to the invention, engaging in one another, in a perspective view; and

[0018] FIGS. 5a-5c show the mounting of the front attachment fitting according to the invention that is shown in FIG. 4 on a furniture panel.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0019] The fitting part 1 shown in FIGS. 1 to 3 serves for fastening in a tool-free manner in a bore in a furniture panel. In the following text, the fitting 1 is described merely by way of the example of a front attachment fitting.

[0020] The fitting part 1 has a radially outwardly expandable expansion sleeve 2 to be inserted into the bore and a fitting housing 3, which is mounted in the expansion sleeve 2 so as to be rotatable about an axis of rotation 4 between a starting rotary position (FIG. 3a) and a final rotary position (FIG. 3b). To this end, a shank 5 of the fitting housing 3 is mounted in a bearing opening 6 of the expansion sleeve 2 so as to be rotatable about the axis of rotation 4. The expansion sleeve 2 can, as shown in the exemplary embodiment, be a slotted sleeve, which is clip-fastened to the shank 5, or alternatively have a radially outwardly expandable circumferential wall portion. Preferably, the expansion sleeve 2 is made of plastic and the fitting housing 3 of metal (for example zinc die-casting).

[0021] The fitting housing 3 has a lever arm 7, arranged outside the expansion sleeve 2, which extends at right angles to the axis of rotation 4, and an expansion contour 8, arranged within the expansion sleeve 2, which—upon rotation of the fitting housing 3 through 90° in the expansion direction of rotation 9 from the starting rotary position into the final rotary position—expands the expansion sleeve 2 radially outwardly. The expansion contour 8 can have an external contour that is eccentric with respect to the axis of rotation 4 or, as shown in the exemplary embodiment, is oval. The spacing of the expansion contour 8 from the axis of rotation 4 increases counter to the expansion direction of rotation 9, in order for the expansion sleeve 2 to be expanded radially outwardly by the fitting housing 3 being rotated through 90° in the expansion direction of rotation 9. The expansion contour 8 has its maximum spacing from the axis of rotation 4 preferably in the direction of the lever arm 7. The inner wall of the expansion sleeve 2 has preferably an internal contour 10 that corresponds to the expansion contour 8, in this case an oval one, and bears against the expansion contour 8 all the way around in the starting rotary position.

[0022] The front side 11, in the expansion direction of rotation 9, of the lever arm 7 has, at the free end of the lever arm 7, a set-back side contour 12, as seen in the expansion direction of rotation 9, which is point symmetric with respect to an axis of symmetry 13 that is parallel to the axis of rotation 4 and lies in a radial plane 14, extending parallel to the lever arm 7, of the axis of rotation 4. The set-back side contour 12 is formed preferably in an S-shaped manner, as shown in the exemplary embodiment, or in a stepped manner, but can alternatively also extend in a parallel or oblique manner with respect to the radial plane 14. The lever arm 7 furthermore has a latching device in the form of a latching protrusion 15 and a latching recess 16, which are arranged in a point symmetric manner with respect to the axis of symmetry 13 on two end faces 17a, 17b, remote from the axis of rotation 4, of the lever arm 7. The fitting housing 3 also carries an attachment element, in this case in the form of a transverse rod 18, which is oriented transversely to the radial plane 14.

[0023] FIG. 4 shows a front attachment fitting 20, which is formed from two identical fitting parts 1 engaging in one another. The two fitting parts 1 are arranged in a manner rotated through 180° with respect to one another, such that the radial planes 14 of the two fitting parts 1 form a common plane. The free ends of the two lever arms 7 bear against one another at the end faces, wherein the S-shaped side contours 12 of the two fitting parts 1 engage mutually in one another and wherein the latching protrusion 15 of the one fitting part 1 engages in the latching recess 16 of the other fitting part 1.

[0024] FIGS. 5a-5c show the mounting of the front attachment fitting 20 on a furniture panel, for example on a front panel 21. Two bores 22a, 22b (for example ∅10 mm, 11 mm deep) with a spacing of, for example, 46 mm are drilled into the front panel 21. With a 180° offset from one another, the one fitting part 1 is pressed by way of its expansion sleeve 2 into the one bore 22a and the other fitting part 1 is pressed by way of its expansion sleeve 2 into the other bore 22b in a tool-free manner (FIG. 5a), with the result that the expansion sleeves 2 are anchored in a rotationally fixed manner in the bores 22a, 22b. As shown in FIGS. 2a, 2c, the expansion sleeve 2 has, on its outer circumference, a plurality of radially outwardly protruding, pointed protrusions 23, which press into the bore wall and as a result keep the expansion sleeve 2 in a rotationally fixed manner in the bore. Subsequently, the user rotates the fitting housings 3 of the two fitting parts 1 in a tool-free manner within the expansion sleeves 2, in each case through 90° in the expansion direction of rotation 9, into the final rotary position (FIG. 5b). As a result, the expansion sleeves 2 are expanded in each case radially outwardly by the expansion contours 8 of the fitting parts 1 and are anchored in the bores 22a, 22b. The S-shaped side contours 12 of the two fitting parts 1 engage mutually in one another and in this way mutually secure the two fitting housings 3 against overtwisting (FIG. 5c). The latching protrusion 15 of the one fitting part 1 engages in the latching recess 16 of the other fitting part 1, with the result that the two fitting parts 1 are latched together in their final rotary positions. By means of the transverse rods 18 that are offset in a manner parallel to one another, the front attachment fitting 20 together with the front panel 21 can then be fastened to a carcass fitting (not shown).