Support system for rack elements

A support system for rack elements has a support element and a hanging element. The support element has an upwardly projecting suspension rail and the hanging element is provided with a slot, by which the hanging element can be plugged onto the suspension rail. The support system is distinguished in that the suspension rail is provided with a curvature, and the slot has a corresponding curvature, with the result that the hanging element can be plugged onto the suspension rail, and removed therefrom, by a rotary movement.

BACKGROUND OF THE INVENTION

Field of the Invention

The invention relates to a support system for rack elements having a support element and a hanging element. The support element has an upwardly projecting suspension rail and the hanging element has a slot by which the hanging element can be plugged on to the suspension rail.

A rack-support system of the generic type is known from U.S. Pat. No. 5,110,080 which provides a retaining strip that can be installed horizontally on a wall or a corresponding surface and in which hanging bars can be suspended vertically. Furthermore, horizontal supports for shelves of a rack can be fastened onto the hanging bars.

The retaining strip here has a bottom edge that is curved obliquely upward, in order for it to be possible for correspondingly shaped slots on the hanging bars to be plugged thereon. The retaining strip also has a top edge, which is bent obliquely downward and is configured such that a suspended hanging bar cannot be drawn off from the bottom edge. This configuration prevents the hanging bar from being detached in an undesirable manner from the retaining strip, for example as a result of an unintentional thrusting movement, and thus prevents the entire rack from possibly falling apart.

In order for the hanging bar to be plugged onto the bottom edge of the retaining strip and removed therefrom, the top edge is provided with additional cutouts. This form of retaining strip, however, is associated with increased production outlay. It is also disadvantageous that, during assembly of a rack, it is only possible for the hanging bar to be plugged onto the positions which are predetermined by the cutouts, and then to be pushed laterally, via the bottom edge, to a desired location. This renders assembly, in particular with a multiplicity of hanging bars, complicated and time-consuming. It is also the case that the operation of exchanging an individual hanging bar proves, in certain circumstances, to be a lengthy one if, in the first instance, adjacent hanging bars have to be displaced and, if appropriate, removed.

SUMMARY OF THE INVENTION

It is accordingly an object of the invention to provide a support system for rack elements which overcomes the above-mentioned disadvantages of the prior art devices of this general type, which is distinguished by a more straightforward configuration and more flexible handling.

With the foregoing and other objects in view there is provided, in accordance with the invention, a support system for rack elements. The support system contains a support element having an upwardly projecting suspension rail with a given curvature, and a hanging element having a slot formed therein and by the slot the hanging element can be plugged onto the suspension rail. The slot has a curvature corresponding to the given curvature, with which the hanging element can be plugged onto the suspension rail by a rotary movement.

According to the invention, the support system contains the support element with the upwardly projecting suspension rail and the hanging element that has a slot, by which the hanging element can be plugged onto the suspension rail. The suspension rail has a curvature, and the slot of the hanging element has a corresponding curvature, with the result that the hanging element can be plugged onto the suspension rail, and removed therefrom, by a rotary movement. The configuration secures the plugged-on hanging element against unintentional detachment from the suspension rail, for example as a result of a thrusting movement. It is also the case that the hanging element can be plugged onto the suspension rail of the support element at any desired location, thus providing for flexible handling. The support system is further distinguished by a straightforward construction.

In a preferred embodiment, the curvature of the suspension rail of the support element is configured in a radial direction. In contrast to configurations with a non-radial curvature, the slot of the hanging element in this embodiment may be provided with a small amount of play, with the result that high stability of the plugged-on hanging element is achieved.

It is further preferred that the curvature of the suspension rail of the support element covers a sector of a circle of at least 30°. This results in the plugged-on hanging element being secured in a reliable manner against accidental detachment.

In a further preferred embodiment, the support element is produced from a sheet-metal strip, the suspension rail being formed by upwardly directed bending of a bottom edge of the sheet-metal strip. A support element that is configured in this way can be produced straightforwardly and cost-effectively from a metal sheet by using corresponding punching and pressing machines.

According to a further preferred embodiment, the hanging element is provided with an oblique abutment surface, by which the hanging element can be positioned against the support element before being plugged onto the suspension rail. This simplifies the plug-on operation since the hanging element is placed in a predetermined position on the suspension rail. This also makes it possible to avoid any deformation of the suspension rail during the plug-on operation as a result of incorrect positioning of the slot relative to the suspension rail.

In accordance with an added feature of the invention, the hanging element has a U-shaped crossed section and is formed from two parallel side walls with a crosspiece located therebetween. The side walls each have the slot formed therein and the crosspiece has cutouts formed therein for accommodating the rack elements.

In accordance with a further feature of the invention, the support element has a substantially rectangular stamped portion disposed above the suspension rail. The stamped portion has cutouts formed therein for receiving screws, including countersunk head screws, for fastening the support element on a wall or on a corresponding surface.

In accordance with another feature of the invention, the support element has a substantially U-shaped cross-section formed from two parallel side walls with a crosspiece disposed therebetween. The suspension rail is formed on each bottom edge of one of the side walls.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring now to the figures of the drawing in detail and first, particularly, toFIG. 1thereof, there is shown a side-sectional view of a support system according to the invention. The support systems contains a support element1and a hanging element3which has been plugged onto the support element1and, in the present embodiment, is configured as a vertical hanging bar3. The support element1is produced cost-effectively from a sheet-metal strip and has a curved suspension rail11, which is formed by a bottom edge of the sheet-metal strip being bent upward. The hanging bar3is provided with a correspondingly shaped slot31, with the result that the hanging bar3can be plugged onto the suspension rail11of the support element1, and removed therefrom, by a rotary movement. The hanging bar3is thus secured in relation to accidental detachment as a result of an upwardly directed thrusting movement.

The curvature of the suspension rail11of the support element1and of the slot31of the hanging bar are configured in a radial direction with a center point of a circle with a radius R predetermined by the curvature ending up located on the front side of the support element1. At the same time, the axis of rotation D of the rotary movement, as the hanging bar3is plugged on or removed, runs through the center point. The axis of rotation D is thus oriented perpendicularly to the plane of the drawing inFIG. 1.

If a hanging element, like the hanging bar3shown inFIG. 1, has a top end section which projects beyond the axis of rotation D, then the end section has to be provided with an oblique portion in order for it to be possible for the hanging element3to be plugged on and removed by a rotary movement.

In the case of the hanging bar3shown, the oblique portion functions, at the same time, as an abutment surface32, as can be seen inFIG. 2.

The support element1has, above the suspension rail11, an essentially rectangular stamped portion12, which is provided with cutouts13in which it is possible to dispose screws, in particular countersunk head screws, for fastening the support element1on a wall or a corresponding surface. The stamped portion12increases the buckling strength and torsional rigidity of the support element1. Disposing the stamped portion12above the suspension rail11and the plugged-on hanging bar3allows straightforward installation or adjustment of the support element1and tightening of the screws even with the hanging bar3plugged on.

AsFIG. 2shows, the hanging bar3, in a rotated position, butts against the support element1by way of the abutment surface32. The plug-on operation is simplified as a result since the hanging bar3is automatically plugged onto the suspension rail11in the desired position.

InFIG. 2, the sector of a circle covered by the suspension rail11of the support element1is depicted by an angle of rotation α. The angle α should be at least 30°, in order to make it possible for a plugged-on hanging element to be secured in a reliable manner against unintentional detachment. It is also the case, however, that the angle of rotation α should be no more than 45° in order to avoid the suspension rail11bending open as a result of excessive tensile forces when a hanging element is plugged on or removed. The maximum angle of rotation is preferably selected in dependence on the type of material and on the thickness of the material of the support element.

It is also conceivable to have configurations of the support system in which the suspension rail11of the support element1projects, in part, into the slot31of the hanging element3butting against the support element1by way of the abutment surface32. This provides the hanging element3with additional securing, since an additional translatory movement is necessary in order to remove the hanging element3from the suspension rail11.

FIG. 3shows a perspective illustration of the support system according to the invention that corresponds toFIG. 1. The support element1that is configured as a horizontal strip, is fastened on a wall by countersunk head screws14. The use of countersunk head screws14gives the support element1a pleasing appearance.

The hanging bar3has a U-shaped cross section and is formed from two parallel side walls33,33′ with a crosspiece34located therebetween. The side walls33,33′ are each provided with the slot31and an abutment surface32,32′. It is only the slot31of the front side wall33which is illustrated inFIG. 3. The crosspiece34has cutouts35for accommodating correspondingly shaped hooks of horizontal bearing supports, the cutouts35in the case of the present hanging bar3, being configured as a series of double perforations. Of course, a corresponding embodiment with a series of single perforations is also conceivable.

FIG. 4shows a perspective illustration of the support element1according to the invention with a further embodiment of a plugged-on hanging element4configured as a horizontal bearing support4for a rack shelf. The bearing support4also has a radially curved slot41and an oblique abutment surface42.

FIG. 5shows a perspective illustration of a further embodiment of a support element2according to the invention with the hanging bar3plugged on. The support element2has an essentially U-shaped cross section and is formed from two parallel side walls22,22′ with a crosspiece23located therebetween, a suspension rail21,21′ being formed on each bottom edge of a side wall22,22′. The support element2can also be produced straightforwardly and cost-effectively from a sheet-metal strip.

In the case of the embodiment illustrated inFIG. 5, it is possible for hanging elements to be plugged on on both sides of the support element2. The crosspiece23of the support element2functions as a bearing surface, by which the support element can be positioned on a supporting bar5. InFIG. 5, the supporting bar5is a square tube. It is also conceivable, however, to have embodiments of the support element with a semicircular or round crosspiece, with the result that the support element can be positioned on a circular or round supporting bar.