The invention relates to a trash can having an injection-molded plastic body comprising side walls and a bottom wall positioned relative to each other such that the side walls and the bottom wall together define a cavity having an opening opposite the bottom wall. The side walls integrally merge into the bottom wall at their lower ends, and each side wall merges with the adjacent side walls at common corners.
The trash cans in question are already known in the art. Such trash cans may be provided by municipalities for home use, with different filling capacities of 601, 1201, 2401, 3601, or similar, for example, in order to store household trash, biological waste or similar, and for a disposal in return for payment.
DE 20 2013 000 851, for example, discloses a trash can made by injection molding in one piece of plastic. This trash can is essentially comprised of a bottom as well as four walls projecting upward therefrom. On its lower face, the bottom wall is provided with a stand strip on three sides of the trash can, on which the trash can sit when it is correctly placed on the floor. This stand strip is provided underneath corners between the front wall and side walls of the trash can with curved stand-strip segments joined by long straight segments of the stand strip.
The object of the invention is to improve on a trash can of this type and to facilitate its daily use.
This object of the invention is attained by a trash can with an injection-molded plastic body formed by side walls and a bottom wall positioned relative to each other such that the side walls and the bottom wall together define a cavity open away from the bottom wall. The side walls integrally merge into the bottom wall at their lower ends, and each side wall merges with the two adjacent side walls at common corners. The side walls of the trash can are curved many times in opposite directions between two corners in the width direction of the respective side wall.
Due to this corrugation of the side walls in opposite directions it is possible, with respect, in particular, to a maximum available width of such a side wall, to achieve a surface enlargement and therefore also more efficient material use for the same side wall width in the respective side wall, without thickening this side wall. The resulting trash can is therefore significantly stiffer, in particular with reference to a side wall that is entirely or only partially corrugated in opposite directions, than what is possible in case of a relatively completely plane side wall.
The stability may also be constructively increased simply by using thicker side walls. However, in order to achieve similar advantageous stability and/or resistance values, significantly more material would have to be used, and the trash can would become much heavier, and this would cause more difficulties in daily handling of the trash can.
Moreover, the trash can, in spite of its reinforced side walls, may be extracted without any undercut from a complementary injection mold.
In the case of a side wall at least partially corrugated in opposite directions, the corrugations cover width the side walls from a first corner all the way to a corner opposite this first corner. The full-width corrugations extend vertically the full height of the trash can.
It is already sufficient if some of side walls are at least partially formed with corrugations between two corners in order to provide the trash can according to the invention with better stability with respect to conventional planar side walls.
These side walls of the trash can are provided with corrugations preferably only in their lower third. Due to the corrugated construction obtained in this way, it is in particular possible to achieve an advantageous reinforcement of the side walls such that forces applied to the plastic body of the trash can in case of an impact of the trash can, in particular in one of the corners, on a floor or similar are distributed in a very smooth way to the overlying planar side wall regions.
In this sense, in a preferred embodiment the side walls of the trash can have a corrugated shape between two corners in the width direction of the respective side wall. The corrugations advantageously extend between two corners with a certain periodicity in the width direction. In case of an at least partially corrugated side wall, the profile of the wave peaks and troughs is directed in the width direction of side walls from a first corner to a corner opposite to the first corner. This means that the width direction of wave peaks or troughs is directed in the direction of the total height of the trash can.
It is particularly advantageous if side walls of the trash can are provided between two corners in the width direction of respective side walls with regions that are alternately concave and convex. In this way, a greater quantity of material may be accumulated with respect to the width of the side wall so that the side wall is overall stiffer.
If the front side wall and the lateral side walls are provided, between two corners, in the width direction of the respective side wall, with a different number of wave troughs and peaks, the front side wall, which is frequently subject to higher loads, may be rendered stiffer due to a larger material accumulation with respect to its width. The less loaded lateral walls may instead be provided with less material; these lateral side walls may be nonetheless provided with corrugations or waves.
Preferably, in the front side wall between two corners in the width direction of the respective side wall a total of at least six, preferably seven, wave peaks and troughs are provided, whereas on the lateral side walls between two corners in the width direction only a maximum of five wave peaks and troughs are provided.
Side walls of the trash can are advantageously provided, in their lower third, in the width direction of the respective side wall with a labyrinthine side wall cross section. In this way extremely stable and solid merge regions may be created between these side walls and the bottom wall.
It is also advantageous if the front side wall is provided with a tighter labyrinthine side wall cross section than the lateral side walls. In this way, the usually more loaded front side wall may be stiffer and robust, whereas the less loaded lateral side walls may be lighter, although stiffer and more robust than before due to a further labyrinthine cross-section. According to a further advantageous embodiment a merge region between the side walls and the bottom wall is provided with waves and troughs in opposite directions or corrugations. The trash can may therefore be in particular reinforced on its lower side.
If the front side wall is also provided where it merges with the bottom wall with a labyrinthine cross section that is different with respect to the lateral walls, then this often more loaded merge region may be provided also with a higher stability and resistance.
A further preferred embodiment envisages that the bottom wall is provided with an enveloping edge that is provided with multiple in oppositely curved or corrugated edge segments, so that the bottom wall may also be reinforced according to the invention.
If the multiply opposite curved or corrugated edge segments and the at least partially multiple opposite curved or corrugated side walls have the same curvature, it is possible to easily produce very stable merge regions between these side walls and the bottom wall.
In this context, it is advantageous, if the multiple opposite curved or corrugated edge segments of the bottom wall are positioned more toward the inside than the multiple opposite curved or corrugated lateral walls. In this way merge regions with an advantageous radius may be created, so that there is between the bottom wall and the corresponding side walls a better force flow in the material.
Moreover, it is advantageous if the bottom wall is provided with a plurality of wave peaks and troughs, which, starting from a central area of the bottom wall, in the respective width direction, extend like spokes up to the merge region between the bottom wall and the side walls. The individual peaks and troughs are concentrically arranged around this central area or injection point. Only in this way it is possible to further develop a trash can of this kind, so that this combination of characteristics is advantageous even without the other characteristics of the invention.
Further characteristics, effects and advantages of this invention are explained with reference to the attached drawing and the following description, in which an embodiment of a trash can according to the invention is shown and described.
In the drawing, in particular:
The trash can 1 shown in
As can readily be seen in
In particular, the bottom wall 8 is also reinforced in that it is provided with a plurality of further wave peaks 40 and troughs 41 that extend, with respect to their respective width direction 42 (shown for illustrative purposes only), starting from a central area 43 of the bottom wall 8 and in this example also from an injection point 44 provided on the bottom wall 8, like spokes to the merge region 37 between the bottom wall 8 and the side walls 3, 4, 5 and 6.
It is understood that this embodiment is only a first embodiment of the inventive trash can. In this sense, the invention is not limited to this illustrated embodiment.
All characteristics that are disclosed in the application files are claimed as essential to the invention, provided that they, individually or in combination, are new with respect to the prior art.
Number | Date | Country | Kind |
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10 2014 207 355.3 | Apr 2014 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2015/058085 | 4/14/2015 | WO | 00 |