CZ282955B6 - Keyed joint - Google Patents

Abstract

The invention relates to a wedge action connector, especially for construction equipment, with an extended support, a releasably securable holding component longitudinally movable thereon which is stable in position at various longitudinal points on the support, which has an aperture at least partially surrounding a support with a limited range of movement, the cross-section of which is somewhat larger in at least one direction transversely to the support than the latter's corresponding cross-section, and with a securing wedge having two impact ends, the cross-section of which increases in its longitudinal direction, which can also be inserted through a safety aperture merging into the acceptance aperture and which in the secured position, bearing laterally on the support, clamps the holding component securely in position against the support. To improve handling and reduce the space required, the invention proposes that the safety wedge is arc-shaped and both its impact ends point roughly in the same direction.

Description

Wedge joint

Technical field

The invention relates to a wedge joint, in particular for construction equipment, with an elongate beam, on which a fastening element is displaceably disposed in the longitudinal direction of the beam and is positionally fixed in this longitudinal direction in a longitudinal direction. the clearance of the beam at least in part, the cross section of the receiving opening being at least in one direction perpendicular to the longitudinal axis of the beam somewhat larger than the corresponding dimension of the beam, with a locking wedge with a pair of stopping ends and increasing cross section in its longitudinal direction an opening intersecting the receiving aperture in the fastener and in a working position by laterally engaging the beam fixes the fastener in a stable position relative to the beam.

BACKGROUND OF THE INVENTION

The locking wedges of such wedge joints are substantially straight and their stop ends are oriented in opposite directions to each other. For this reason, there must be enough free space at both stop ends of the locking wedge to tighten and release the wedge joint. Since the locking wedge generally extends in the longitudinal direction of the beam, the fasteners need to be fixed to the beam with sufficient longitudinal distance from disturbing obstacles, for example from a wall or other fastener on the same beam, on the other hand The wedge acts across the beam, which can easily lead to damage. In addition, it is necessary to maintain a sufficient distance from adjacent beams in the lateral direction.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to improve the known wedge construction described above, which will allow better use of space and be easier and more convenient to handle.

SUMMARY OF THE INVENTION

This problem is solved and the drawbacks of the known solutions are largely eliminated by the wedge joint according to the invention, which is characterized in that the locking wedge has an arcuate shape and its two stop ends are oriented in approximately the same direction. This solution achieves that the locking wedge of the wedge is fixed in the same way as the wedge is fixed and the wedge is disengaged when the wedge is released. This brings about a considerable simplification of handling, for example, when repeated fixing and releasing is required when accurately positioning the fastener on the beam in the longitudinal direction of the beam. In addition, considerably less space is required, so that more of these wedge joints can be realized in a narrow space without interfering with these wedge joints.

It is preferred that the width of the locking wedge measured perpendicularly to the bushes of its curvature from one stop end to the other stop end increases or if the thickness of the locking wedge measured in its plane of curvature from one stop end to the other stop end increases or to the plane of its curvature from one stop end to the other stop end, and the thickness of the locking wedge measured in the plane of its curvature from one stop end to the other stop end increases. These solutions offer a variety of options for designing the locking wedge by varying its width and / or thickness. In this way, the shape of the locking wedge can be optimally adapted to individual applications. It is particularly advantageous to vary the width of the locking wedge.

- 1 GB 282955 B6

It is further preferred that the transverse dimensions of the locking wedge grow approximately equally between its stopping ends, which allows for a uniform function in handling the wedge joint. In another possible variant, it is advantageous if the increment of the transverse dimensions of the locking wedge is smaller in the region of its thrust end than in the remaining part, which in turn allows fast fixing of the wedge roughly at the beginning of clamping. forces at the end of the locking wedge stop. These features facilitate handling and increase the reliability of the wedge joint.

The locking wedge is preferably of a curved strip material. This locking wedge can be manufactured in a particularly simple and inexpensive manner. The wedge blanks punched or cut from the sheet material need only be bent perpendicular to their plane so that the stop ends are oriented in approximately the same direction.

It is advantageous if the locking wedge is bent approximately semicircular, thus providing particularly favorable forces transmission conditions. This is particularly true in connection with a locking wedge in which only its width changes across the plane of curvature. The term semicircular also includes locking wedge shapes that are bent at an angle greater than or less than 180 degrees, but the deviation from this angle should not be greater than plus / minus 90 degrees.

Furthermore, it is advantageous if the stopping ends of the locking wedge are designed as stopping plates with enlarged impact surfaces. The stop plates are attached to the locking wedge, for example by welding, or are integrated as parts of the locking wedge. Said stop plates are optionally formed by the curved ends of the locking wedge. It is preferred that the stop plates of the approximately semicircular locking wedge protrude approximately radially outward at its stop ends. The stop pads made in this way make it very easy to handle when striking the locking wedge. In addition, the shaping and mounting of these stop plates can be easily adapted to the conditions of the application, for example the spatial conditions.

In addition, it is preferred that the securing opening in the fastener extends approximately transversely to the receiving opening and the longitudinal axis of the beam. Alternatively, it is also possible that the securing hole in the fastener extends approximately in the direction of the receiving hole of the fastener and approximately in the direction of the longitudinal axis of the beam. The variants described are chosen according to the application, but in principle, for stability reasons, the first of these variants should prevail because the impact forces in this case act in the longitudinal direction of the beam, thus not transversely to its longitudinal axis. However, if it is necessary to mount a plurality of fasteners closely behind one another on the beam, the latter may be preferable or unavoidable.

For practical reasons, it is advantageous if the fastening element has a fork shape in the region of the receiving opening and surrounds the beam from three sides. This solution has the advantage that, thanks to the fork shape, the fastening element can be mounted on the beam even in tight space from the side and does not need to be slid onto the beam in the direction of the longitudinal axis of the beam. If this sliding in the longitudinal direction is possible, for reasons of stability at the same material cost, it is preferable that the receiving opening surrounds the beam from all sides.

Preferably, the receiving opening is formed near the fastening end of the fastening element and the locking opening extends between the receiving opening and the fastening end transversely to the receiving opening. The advantage of this solution is that the fastener does not interfere with the operation of the locking wedge.

It may further be advantageous for many applications if the arc curvature of the locking wedge is less than or greater than 180 degrees and deviates from this angle by less than plus / minus 90 degrees.

-2GB 282955 B6

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS The invention is further elucidated with reference to the accompanying drawings, in which:

FIG. 1 is a schematic cross-sectional side view of a first embodiment of a wedge connection in a wall bracket;

FIG. 2 is an enlarged schematic cross-sectional view of the first embodiment of the wedge joint of FIG. 1;

FIG. 3 is a front view of the first embodiment of the wedge joint in direction III as seen in FIG. 4;

FIG. 4 is a partial side view of the first embodiment of the wedge joint in the IV direction of FIG. 3;

FIG. 5 shows a first embodiment of a wedge joint in section along the line V-V in FIG. 4;

FIG. 6 shows a first embodiment of a wedge joint in section along the line VI - VI of FIG. 3;

Fig. 7 is a schematic front view of a second embodiment of a wedge connection used in the plank holder; and Fig. 8 is a side view of a second embodiment of the wedge connection.

DETAILED DESCRIPTION OF THE INVENTION

A first embodiment of Figures 1 to 6 relates to a wedge connection in a wall bracket whose horizontally oriented beam 10 extends perpendicularly from the wall 34 and carries a vertically oriented fastening element 12 for gripping any object, for example a building or structural element. This vertically oriented fastening element 12 is adjustable in the longitudinal direction of the horizontally oriented beam 10 to any intermediate position in which it can be fixed by a wedge connection according to the invention.

The horizontally oriented beam 10 is mounted on a wall bracket 30, which can be screwed vertically to the wall 34 in the installed state. The free end of the horizontally oriented beam 10 is supported by an inclined support 32, the other end of which is fixed to the wall bracket 30.

A second exemplary embodiment according to FIGS. 7 and 8 relates to a plank holder 36 whose vertically oriented beam 10 can be mounted laterally at the step of the staircase or on a building panel by an end clamp mechanism. The movably clamp fastener 12 is adjustable along a vertically oriented beam 10 and can be fixed in any intermediate position by means of a wedge connection according to the invention.

At the lower end of the vertically oriented beam 10 of FIGS. 7 and 8, there is a stationary foot support 38 which, together with an adjustable fastening element 12, forms said clamp mechanism for gripping the entire bracket 36. The foot support 38 is pivotable about an axis perpendicular to the beam 10 so the bracket 36 can also be fixed in the lateral direction at the step of the staircase, the bottom of which runs at an inclination corresponding to the step of the staircase. A plurality of clips 40 mounted on the vertically oriented beam 10 serve to retain planks or planks (not shown) and the like.

-3GB 282955 B6

Both designs as well as many other possible variants work on the same principle. The corresponding parts of the two embodiments are therefore indicated by the same reference numerals. In the following, a first embodiment is described in more detail on the basis of the drawings, the description of which therefore applies analogously to the second embodiment.

In the fastening element 12, a receiving opening 14 is provided which encloses at least a part of the beam 10. Since it must be possible to attach the mounting element 12 to the beam 10 laterally, the receiving opening 14 is open on one side so that it has a U or fork shape. 3 and 5.

A locking wedge 16 is used to fix the fastening element 12 to the beam 10, which in this case is, in the case, for example, according to FIG. 6, semicircular curved. The locking wedge 16 is provided with welded, approximately radially oriented stopping plates at its stopping ends 18, 20 which are oriented in approximately the same direction, which facilitate the transmission of the strokes needed to fix and release the locking wedge 16.

The illustrated locking wedge 16 has approximately the same thickness along its length of curvature - see FIG. 6, while its perpendicular width increases from the stop end 20 to the stop end 18 - see FIGS. 1-5. in principle, instead of or additionally, it is possible for the thickness of the locking wedge 16, measured in the plane of curvature, to increase between the stopping ends 20, 18, as shown in FIG.

The locking wedge 16 passes through the locking hole 22 in the free end of the fastening element 12 and thus through the receiving opening 14, in this case across this receiving opening 14. This locking opening 22 ensures that the locking wedge 16 with a cross-section increasing in the driving direction increases the distance measured in 1 to 5, i.e. in the vertical direction, between the side of the beam 10 and the edge of the locking hole 22. As a result, the fastening element 12 is pressed in its longitudinal direction to the beam 10 and thus fixed thereon.

The storage opening 14, which in the first embodiment is U-shaped, is delimited at its upper edge by a welded-on fork connector 24 and laterally by the fork arms 26 of the fastening element 12. The locking hole 22 is provided with a stable welded seating on one side. by a locking wedge member 28, this abutment member 28 absorbs the forces in the strikes.

When the locking wedge 16 is struck by its thicker stop end 18, the locking wedge 16 moves in contact with the abutment member 28, which changes its direction of movement, through the locking hole 22 and the fastening element 12 is clamped on the beam 10. the end 20 of the locking wedge 16, in turn, releases the clamping.

Since the locking hole 22 in both embodiments extends transversely to the longitudinal axis of the beam 10, the stop ends 18, 20 of the locking wedge 16 extend in the retracted state in both embodiments approximately in the direction of this longitudinal axis. The impact forces are therefore very well absorbed by this beam 10. In principle, however, it is also possible for the locking hole 22 to extend also in the direction of the longitudinal axis of the beam 10 or also at an angle to this axis. The stop ends 18, 20 of the locking wedge 16 in the retracted position are then oriented perpendicular or oblique to the longitudinal axis of the beam 10.

A variant is also possible in which only the locking wedge 16 measured in the plane of curvature changes. The stop ends 18, 20 of the locking wedge 16 then point downwards or upwards in the first embodiment according to FIGS. 1 to 6, while in the second embodiment according to FIGS. In principle, however, a solution would also be possible in which the width and thickness of the locking wedge 16 would change in the manner of a toe.

-4GB 282955 B6

The wedge joint according to the invention has an extremely versatile application, for example in the construction industry in various construction equipment. The shape of the locking wedge can have a number of variations. It is essential here that the stop ends of the locking wedge do not point in opposite directions, as in the case of known wedge joints, but are oriented in approximately the same direction. The possible deviation of the direction should not be greater than plus / minus 90 degrees, whereas in the known wedge connections it is 180 degrees.

Claims (19)

PATENT CLAIMS A wedge joint, in particular for construction equipment, with an elongate beam, on which a fastening element is displaceably disposed in the longitudinal direction of the beam, which is positionally fixable in this longitudinal direction in various positions and forms a receiving bore around at least partially a beam, wherein the cross-section of the receiving opening is at least one direction perpendicular to the longitudinal axis of the beam slightly larger than the corresponding dimension of the beam, with a locking wedge having a pair of stopping ends and increasing cross section in its longitudinal direction passing through the locking opening A fastening wedge (16) has an arcuate shape and its two stopping ends (18, 20) are oriented in an interlocking receiving opening in the fastening element and in a working position by laterally engaging the beam. in the same direction. Wedge joint according to claim 1, characterized in that the width of the locking wedge (16) measured perpendicularly to the bushes its curvature from one stop end (20) to the other stop end (18) increases. Wedge joint according to claim 1, characterized in that the thickness of the locking wedge (16) measured in the plane of its curvature increases from one stop end (20) to the other stop end (18). Wedge joint according to claim 1, characterized in that the width of the locking wedge (16) measured perpendicular to the plane of its curvature from one stop end (20) to the other stop end (18) and the thickness of the locking wedge (16) measured in the plane its curvature increases from one of its stop end (20) to the other stop end (18). Wedge joint according to one of claims 1 to 4, characterized in that the transverse dimensions of the locking wedge (16) between its stop ends (18, 20) increase approximately evenly. Wedge joint according to claim 5, characterized in that the increase in the transverse dimensions of the locking wedge (16) is smaller in the region of its thicker stop end (18) than in the remaining part. Wedge joint according to one of claims 1 to 6, characterized in that the wedge (16) is of a curved strip material. Wedge joint according to one of Claims 1 to 7, characterized by the wedge (16) being bent in a substantially semi-circular manner. by making insurance by making insurance that punch Wedge joint according to any one of claims 1 to 8, the ends (18, 20) of the locking wedge (16) being designed as stop plates with enlarged impact surfaces. characterized by Wedge joint according to claim 9, characterized in that the stop plates are attached to the locking wedge (16), for example by welding. Wedge joint according to claim 9, characterized in that the stop plates are designed as integrated components of the locking wedge (16). Wedge joint according to claim 11, characterized in that the stop plates are formed by the curved ends of the locking wedge (16). Wedge joint according to one of Claims 9 to 12, characterized in that the stop plates of the approximately semicircular locking wedge (16) protrude substantially radially outward at their stop ends. Wedge joint according to one of Claims 1 to 13, characterized in that the locking opening (22) in the fastening element (12) extends substantially transversely to the receiving opening (14) and the longitudinal axis of the beam (10). Wedge joint according to one of claims 1 to 13, characterized in that the locking hole (22) in the fastening element (12) extends substantially in the direction of the receiving opening (14) of the fastening element (12) and substantially in the longitudinal axis of the beam ( 10). Wedge joint according to one of claims 1 to 15, characterized in that the fastening element (12) is fork-shaped in the region of the receiving opening (14) and surrounds the beam (10) from three sides. Wedge joint according to one of Claims 1 to 15, characterized in that the receiving opening (14) surrounds the beam (10) from all sides. Wedge joint according to one of Claims 1 to 17, characterized in that the receiving opening (14) is formed near the fastening end of the fastening element (12) and the locking opening (22) extends between the receiving opening (14) and this fastening end transversely to the receiving opening (14). Wedge joint according to one of claims 1 to 18, characterized in that the arcuate curvature of the locking wedge (16) is less than or greater than 180 degrees and deviates from this angle by less than plus / minus 90 degrees.