The present invention pertains to a gripping strip for a drawer, which has a fixing part, with which the gripping strip can be fixed to a drawer, and which is provided with a visual part, in which information carriers can be attached.
Drawers for cabinets, especially for cabinets that are used as operating materials and bearing means in industry, crafts and manufacturing industry, must first of all meet high functional requirements. These include, for example, a high mechanical stability, even with an intensive use of the drawers. In addition, the drawers shall also be ergonomically favorable as well as simple and cost-favorable to manufacture.
All these aspects must also be considered in the gripping part of the drawer, with which the drawer is pushed in and out by a user from a stand, such as, for example, a cabinet. A design solution has now proven to be advantageous, in which the drawer forms a front side made of sheet metal, which may also be a component part of the front side of a cabinet. This type of drawer has a fixing part, which is usually connected in one piece to a front side of the drawer and to which a gripping strip can be fixed. In the gripping strips used since then by the applicant in its products, a positive-locking connection between the gripping strip and the fixing part is provided for this.
The prior-art gripping strip mentioned is essentially made of aluminum. In order to give the drawer front side a pleasant appearance and to prevent a risk for injury, caps, which lie more or less flush against the gripping strip, are pushed onto both front sides of the mounting part.
Moreover, the gripping strip has a window, in which a marking strip can be arranged, on its visual side. The marking strip should contain information about the respective contents of the drawer. A transparent cellophane strip is pushed over this [marking strip] into the window for the protection of the marking strip.
This prior-art gripping strip is not satisfactory in several respects. To achieve a more reliable fixing of the gripping strips, they usually sit rigidly on the mounting part in such a way that they can only be replaced with a quite considerable consumption of energy and by using special tools that are not commercially available. Moreover, the side plastic caps must be removed and then be put back on. The removal and mounting effort required for replacing the marking strips is also considerable. Finally, the cellophane strips additionally tend to turn yellow over time.
The way marking strips have to be introduced into the visual part and removed has found especially low acceptance among users of drawers. The cellophane strips and marking strips must be pushed into the visual part of the gripping strip from the side for this. Since both strips are not stiff per se, this procedure causes difficulties and often proves to be time-consuming. Since the marking strips are oblong paper strips provided with a low height, up to now these always had to be marked by hand in a complicated way. This also leads to marking strips rarely being replaced and their marking often not portraying the actual contents of the respective drawer.
Thus, the basic object of the present invention is to create a solution for a gripping strip of a drawer, which has a favorable design in relation to its use properties, especially regarding the visual part.
The object is accomplished according to the present invention with a gripping strip of the type mentioned in the introduction in that the gripping strip is provided with at least one snap connection for closing the visual part.
In gripping strips according to the present invention, an opening and closing of the visual part of the gripping strip based on a snap connection should thus be possible, expediently without the use of a tool. Moreover, the area behind the visual part should be accessible in no time at all, expediently only by loosening the snap connection. The snap connection also results in a defined closing end position of the visual part, which is easily recognizable as such by a user both visually and by touch.
In a preferred embodiment, the snap connection may have an undercut, with which a projecting part meshes in the closing end position. A resistance, for example, a reversible restoring force building up in this case, must be overcome in order to lead the projecting part out of the undercut.
In another preferred embodiment, the undercut may run parallel to a longitudinal extension of the gripping strip. A more reliable closing, which is simple in terms of design nevertheless, can also be achieved in that at least either the undercut or the projecting part essentially extends over the entire length of the visual part. However, it is preferred if both the undercut and the projecting part run over the entire length of the visual part.
A transparent window of the gripping strip should be prevented from becoming lost; thus, it may be expedient to connect this [window] to the gripping strip in one piece. Additional advantages may be achieved in this case if the connection point is designed as flexible, so that the window can be swung open and closed by means of a pivoting movement about the connection point. This makes it possible, in an especially simple way, to insert and remove a marking strip from the front. In contrast to prior-art gripping strips, the marking strip does not have to be pushed in from the side. However, an insertion of the marking strip from the front may also be achieved by the at least one snap connection without a one-piece connection of the window to the gripping strip.
Provided that the connection point extends at least essentially over the entire length of the window, the danger of dirt penetrating behind the closed window can, moreover, be markedly reduced. The connection point may therefore advantageously be located—in the mounted state of the gripping strip—above the snap connection. Passing from the fixing part into the visual part may be designed as smooth. Thus, even the dust always settling from above onto the gripping strip hardly has a chance of penetrating behind the window or of settling in depressions.
All in all, the gripping strip preferably consists of plastic, whereby the fixing part and the visual part may comprise the same or different plastics. For example, PVC, which can be dyed in any color, is suitable for the fixing part. The visual part should have a window made of transparent plastic that contains, for example, PVC, Xylex™ (trademark of General Electric Company), polycarbonate and/or ABS plastic. If both parts of the gripping strip are connected to one another in one piece, it is thus possible to produce the gripping strip in a single continuous casting or extrusion process.
An information carrier to be arranged in the visual part may be a part of a printable sheet, e.g., a sheet of paper. This may be segmented—for example, by a perforation, whereby one segment corresponds to a marking strip. As a result of this, the marking of a large number of drawers by printing marking strips can be carried out very quickly and yet in a visually attractive manner.
The various features of novelty which characterize the invention are pointed out with particularity in the claims annexed to and forming a part of this disclosure. For a better understanding of the invention, its operating advantages and specific objects attained by its uses, reference is made to the accompanying drawings and descriptive matter in which preferred embodiments of the invention are illustrated.
The present invention is explained in detail based on exemplary embodiments schematically shown in the figures, in which:
Referring to the drawings in particular, the cabinet of drawers 1 shown in
Each of the drawers 4 preferably has four walls 5, 6, 7, which, together with a bottom plate 8, form a rectangular bearing mount 9 accessible from above. In the view of
The plate designated as 5 in
At its upper end viewed in cross section or in a lateral view, the front section 12 passes over into a profiled fixing section 12c. In relation to an outer side, the fixing section 12c forms a kink angle a at a first kink 15 with the vertical section 12b. As a result of this, the fixing section 12c runs from the first to a second kink diagonally downwards. At the second kink 16, the fixing section 12c is provided with a kink angle β, as a result of which the fixing section is directed diagonally upwards up to a third kink 17. At the third kink 17, the front side forms a kink angle γ, as a result of which the fixing section slopes sharply downwards up to its free end 18 and is essentially flat.
The gripping strip 20 shown in
For this, a fixing part 21 is formed at the gripping strip 20, which [fixing part] essentially extends over the entire area of an inner side 22 of the gripping strip 20, which inner side lies opposite the fixing section 12c of the drawer 4. In other exemplary embodiments, the gripping strip can only extend over a part of the front side of the drawer as well.
With a first end section 23 of the inner side 22 bent concavely in cross section, the gripping strip 20 here lies in the area of the first kink 15 against the fixing section 12c and grips it from behind. The gripping strip 20 in this case is in contact with the fixing section 12c at two points, the first one being located directly in front of the first kink 15 and the second one being located directly behind it. The first contact point is, moreover, located in the area of the upper longitudinal edge 24 of the gripping strip 20.
At the second end section 25, a groove-shaped mount 26 is formed at the inner side. A lower longitudinal edge 27 of the fixing section 12c running over the entire width of the drawer 4 is arranged in this mount 26. A leg 26a of the mount 26 thus grips the lower longitudinal edge 27 from behind.
Moreover, the gripping strip 20 is supported at the fixing section with a third contact point 30 of its inner side between the second and third kinks 16, 17. An outer side or outer surface 31 of the gripping strip 20 runs essentially level between the first and third contact points and is directed approximately horizontally in the mounted state.
Between the third kink 17 and the mount 26, the gripping strip 20 is bent concavely on its inner side 22 and convexly on its outer side 31, whereby the radii of curvature are identical.
The fixing part 21 of this exemplary embodiment of the gripping strip 20 is homogeneously produced from a certain plastic, namely PVC, and by means of an extrusion process.
As a component part of a visual part 32, a transparent window 33 is provided approximately starting from the level of the third contact point 30 in the area of the outer side of the gripping strip 20. The window 33 is connected in a nondetachable manner to the gripping strip 20, consists, for example, of Xylex™ (trademark of General Electric Company), polycarbonate or the like and has about the same curvature as the area of the fixing part 21, which lies directly opposite it. Furthermore, the window 33 extends down to the mount 26 of the fixing part 21.
In the area, in which the window 33 is extruded in a co-extrusion process, the plastics of the fixing part 21 and of the window 33 are materially incorporated into one another. Based on the materials and/or a suitable thin cross section, a movable hinge 34, a so-called film hinge, can be formed here. By means of the last-mentioned [hinge], the window 33 may be pivotable about the hinge 34 in the direction of the double arrow 35. It may be advantageous to use a different plastic, distinguishing the fixing part from the window, for the embodiment of the hinge.
Along its lower longitudinal edge 36 and pointing to the fixing part 21, the window 33 is designed with a gripping-behind means 37, which extends over the entire length of the window. The lower longitudinal edge 36 of the window 33 itself is thus arranged in the closing end position of the window at a distance from the fixing part 21.
The gripping-behind means is provided for meshing with a first undercut 38, which is formed by a leg 40, having an approximately T-like shape in cross section and likewise running over the entire length of the window. The first undercut 38 is turned towards the lower longitudinal edge of the gripping strip.
On the other hand, a second undercut 41 is open towards the film hinge 34. Thus, the fixing part 21 and the window 33 form a mount 42 between the film hinge 34 and the second undercut 41, into which mount a marking strip, not shown in detail, can be inserted. In the exemplary embodiment shown, the mount 42 has a bent cross section. The marking strip is located here with its lower longitudinal edge in the second undercut 41. This guarantees, on the one hand, a reliable and predefined position of the marking strip in the mount 42. On the other hand, this prevents the marking strip from unintentionally falling out of the mount 42 when the window 33 is opened.
Finally, on both of its front sides, the gripping strip 20 can have an impact protection means (not shown), which covers the front edges of the gripping strip 20 and of the fixing section 12c. This impact protection means, which is provided as a replacement for the up to now usual front caps, may be advantageously designed as being in one piece with the gripping strip.
In order to mount the gripping strip 20 on the fixing section 12c of the drawer, first the leg 26a of the groove-shaped mount 26, for example, can be arranged behind the lower longitudinal edge 27. Then, the gripping strip 20 is pivoted towards the fixing section 12c in a pivoting movement according to the arrow 43. In this case, the upper longitudinal edge 24 reaches the fixing section and should be guided over the first kink 15 by applying a force. The gripping strip 20 is, in this case, elastically deformed, until the upper longitudinal edge 24 comes to lie behind the first kink 15. In this end position, the gripping strip 20 has a lower but still elastic pretensioning force, with which it is held on the drawer against an unintentional longitudinal movement or even an unintentional removal.
To open the window 33, it is possible, for example, to grip with a fingernail between the lower longitudinal edge of the window 33 and the fixing part 21, and the gripping-behind means 37 can be led out from the undercut 38 by applying a force. An elastic deformation of the window 33 building up in this case in the area of the gripping-behind means 37 allows a springy force to build up, which disappears again as soon as the gripping-behind means 37 is removed from the leg 40. The window 33 performs a pivoting movement about the hinge 34 in this case. After a marking strip is inserted into the mount 42, the window 33 can be closed by an opposite pivoting movement. The gripping-behind means 37 comes to lie in the undercut 38 in this case. The last two elements mentioned are thus a component part of a snap connection, with which the window can be closed and opened.
In another embodiment according to the present invention, the fixing part of the gripping strip may be made of aluminum. The material of the window may consist entirely or partially of Xylex™ (a trademark of General Electric Company), which is a transparent and highly resistant plastic. The geometric shape of the gripping strip may essentially correspond to the exemplary embodiment shown in
Such another exemplary embodiment is shown in
The window 133 is arched concavely at its upper longitudinal edge 139 and is also provided with a gripping-behind means 137 towards the fixing part (
Moreover, in this embodiment as well, the visual part 132 has, in the area of the lower end of the window 133, a groove-shaped mount 142, into which the lower edge of a marking strip can be inserted
Another exemplary embodiment of the gripping strip according to the present invention is shown in
The materials of the entirely transparent visual part 32 and of the connecting part, on the one hand, and of the connecting part and of the fixing part, on the other hand, are materially incorporated in one another. The material incorporation can be achieved in an extrusion process. Also in this case, the connecting part forms a hinge 45, via which the visual part can be opened with a pivoting movement about the hinge.
For example, PVC materials can be used as materials for the fixing part and the visual part. For the connecting part, for example, a PVC material that is softer in comparison to the materials used for the fixing part and for the visual part is provided, with which the properties of the connecting part needed for an elastic deflection can be achieved. Instead of the PVC materials, any other materials may also be provided, with which the necessary properties regarding strength, elasticity and transparency can be achieved.
While specific embodiments of the invention have been shown and described in detail to illustrate the application of the principles of the invention, it will be understood that the invention may be embodied otherwise without departing from such principles.
Number | Date | Country | Kind |
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253/03 | Feb 2003 | CH | national |
This application is a United States National Phase application of International Application PCT/CH2004/000082 and claims the benefit of priority under 35 U.S.C. § 119 of Swiss Application CH 2003 0253/03 filed Feb. 19, 2003, the entire contents of which are incorporated herein by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CH04/00082 | 2/12/2004 | WO | 8/18/2005 |