The invention relates to a large load carrier made of plastic, having a bottom that accommodates the loads, on the underside of which standing feet are disposed at least in the corner regions, and which is surrounded by a double-wall frame, whereby the inner and outer wall of the frame are connected with one another by way of vertical crosspieces, and strip-shaped protective profiles are disposed in the lower frame region, between two standing feet, in each instance, whereby the back side of the protective profile is supported on the inner wall of the frame.
Such large load carriers are known, for example, from the German patent 10 2004 049 201. The problems that underlie the previously known large load carriers, and also the one according to the invention, can be seen in that such containers are stacked, with several of them one on top of the other, whereby the lowest container has to carry up to 3 metric tons.
For this reason, such a stack is not lifted and set down by the forklift truck driver. Instead, he moves the forks of the forklift against the lower edge of the bottommost container or the bottommost pallet in the stack, and displaces the stack in this manner, to the desired location, over a hall floor that is generally rough.
In this connection, of course, damage or destruction of the plastic container or of the pallet frequently occurs in this region.
In the case of the previously known container, this problem is supposed to be counteracted using a metal profile strip, which is disposed in the lower frame region of the container, between two standing feet. This previously known profile strip had a U-shaped cross-section open toward the front, into which the forks of the forklift are supposed to engage.
In this connection, it can, of course, happen that the forks of the forklift do not hit the U profile, but rather penetrate into the container bottom above the profile strip and cause damage here.
The invention is therefore based on the task of providing a protective profile that is as inexpensive as possible, which prevents penetration of the forks of the forklift into the container bottom.
The invention accomplishes this task in accordance with the characterizing part of claim 1, in that the protective profile is a plastic part, on the longitudinal edge of which an insertion strip for insertion into the interstice between inner and outer wall of the frame is formed on and forms a unit with the profile.
In this way, the region between the actual protective profile and the container bottom that lies behind it is bridged by means of the insertion strip, so that penetration of the forklift forks into this region is precluded.
Furthermore, the unit composed of insertion strip and protective profile is produced using the injection-molding method, and is therefore inexpensive, in any case more inexpensive than the previously known metal profile strip.
According to claim 2, it is provided that the insertion strip has recess slots for accommodating the crosspieces that connect the inner and outer wall with one another.
In this way, a secure hold within the double-wall frame is guaranteed.
Attachment of the protective profiles can take place, for example, by means of recesses in the feet, into which the ends of the profile are introduced, and afterward the foot is installed onto the container bottom.
It is also possible that the profile is put together from multiple individual elements that are screwed on or clipped on or also welded on between the ribs, within the frame.
The protective profile also does not have to consist of individual strips that reach from foot to foot, but rather can be configured as a circumferential frame element that is laid into the aforementioned recesses in the frame, and afterward the feet are installed onto the container bottom.
In the following and using the drawings, however, only the holding method known from the state of the art for attachment of the protective profiles is explained, by means of tongues formed onto the feet, whereby the tongues engage into corresponding recesses at the profile ends.
According to claim 3, it is provided that the protective profile has a cross-section that is U-shaped toward the outside, similar to the previously known metal profile.
In a further exemplary embodiment, it is provided, according to claim 4, that the protective profile has the shape of an L standing on its head in cross-section, whereby the vertical L shank is guided in an arc all the way to the inner wall of the frame, at its end.
This is therefore a profile that is open toward the bottom, in which the forks of the forklift are prevented from slipping upward by the upper L shank.
As additional protection, it is provided, according to claim 5, that a metal profile that is also L-shaped can be laid into the region having the L-shaped cross-section, which profile can also be held by the tongues formed onto the foot, in each instance. However, the attachment alternatives mentioned above can also be used here. Laying in the metal profile is optional and is generally only required if the load to be displaced is particularly great.
Another exemplary embodiment is presented by claim 6. Here, it is proposed that the protective profile has a region that proceeds vertically from the insertion strip, in cross-section, from which region a slanted region runs in the direction of the inner wall of the frame, at an obtuse angle, the end of which region has a horizontal region that is supported in the inner wall of the frame, whereby crosspieces proceed horizontally both from the vertical region and from the region that runs at a slant, which crosspieces have a distance from the inner wall of the frame in the unstressed state.
The region of the protective profile that proceeds vertically serves as an engagement surface for the forks of the forklift for displacement of the container, while the slanted region of the protective profile offers the forks a different type of engagement surface, because of its resilient properties, which are, however, limited by the horizontal crosspieces that serve as a stop, in such a manner that the container is lifted slightly and tilted, thereby facilitating its displacement.
A modification of this solution is given by the characteristic of claim 7, which differs from the preceding exemplary embodiment solely in that the vertical region of the protective profile is left out.
To protect the lower edge of the outer wall of the frame and as a stop for the forks of the forklift, it is provided, according to claim 8, that a projection that projects outward is provided on the profile, at the transition to the insertion strip part, which projection lies against the underside of the outer wall of the frame.
In all the exemplary embodiments that have been presented up to now, it is provided, according to claim 9, that the insertion strip is configured in L shape in cross-section, whereby the vertical L shank lies against the inside of the outer wall of the frame, while the horizontal L shank connects the insides of outer wall and inner wall with one another, whereby vertical intermediate walls are provided over the entire length of the insertion strip, at a distance from one another.
In this way, the insertion strip is also a component that has a light construction but is nevertheless stable, and forms a unit with the protective profile.
In connection with the protective profiles presented up to now, it has been assumed that the rear wall of the frame reaches down lower than the front wall, so that the actual protective profile is visible.
Alternatively, both walls can also have the same height, so that the protective profile disappears completely in the wall. The recesses in the feet, which are installed onto the container bottom after the profile is laid in, then serve to fix the profile in place.
In the following, the invention will be presented and explained in greater detail using drawings.
These show:
In
From this drawing, it is also evident that the rear wall 4 of the frame 3 reaches further down than the front wall 5 of the frame.
The vertical crosspieces 6 that are vertically disposed and connect the front and rear wall with one another can also be seen.
A protective profile 8 is laid into the recess 7 formed by the different lengths of front and rear wall, which profile has recesses 10 at its ends 9, into which tongues 11 engage, which tongues are formed onto a foot 13 installed onto the bottom in the lateral corner region.
The protective profile 8 of the four different embodiments of this invention all have in common that an insertion strip 15 is injection-molded onto the upper edge 14 of the actual protective profile 8, which strip is inserted into the interstice 7 between the inner wall 4 and the outer wall 5 of the frame 3.
As is evident from
As the figure of the back side of the profile 8, 15 shows, the insertion strip 16 has a front wall that is continuous with the exception of the recesses 16, which wall lies against the inside of the front wall 5 of the frame 3, and has a shank 17 that proceeds horizontally from this front wall and connects the front wall 5 and the rear wall 4 with one another in the inserted state.
To increase the stability, the insertion strip 15 and the protective profile 8 are reinforced with perpendicular intermediate walls 18.
In the figures, parts that are the same are provided with the same reference symbols, in each instance. In the following, the protective profiles 8 that have different configurations will now be described. The protective profile 8 shown in
In
For further reinforcement, a metal profile strip 30 that is also L-shaped and is held by means of the tongues 11 can also be laid into the profile 8.
In
Two crosspieces 26 are provided both in the vertical region and in the slanted region, but they end at a distance in front of the inner wall 4. Because of the elastic properties of the profile material (plastic), the profile 8 absorbs part of the energy when the forklift forks attack it, until the crosspieces 26 lie against the inner wall 4.
Finally, in
Number | Date | Country | Kind |
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10 2009 060 970.9 | Nov 2009 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP10/06546 | 10/27/2010 | WO | 00 | 4/23/2012 |