The present application claims the benefit of German Patent Application No. 10 2013 205 688.5 filed Mar. 28, 2013, which is fully incorporated herein by reference.
Not applicable.
The present invention relates to an inner container made of plastic for transporting and storing liquids, said inner container comprising, at a front side, an outlet neck for connecting an outlet armature and a bottom wall, which connects two side walls, one rear wall and one front wall of the inner container to one another, and which bottom wall is for supporting the inner container on a pallet bottom of a transport pallet that is provided with an outer jacket for accommodating the inner container. Moreover, the invention relates to a transport and storage container having such an inner container.
Inner containers of the afore-mentioned type are used as a replaceable component of transport and storage containers, which serve to transport and to store liquids and which are habitually used as so-called “circulatory containers”, which are filled repeatedly. So as to allow the highest possible turnover of the fluids filled into the containers, it is important to ensure the most complete draining of the containers, such that the entire container volume is available for the new filling in the next filling operation. In some cases, it is also important to attain the most complete draining of the containers, so as not to have to carry out complicated rinsing and cleaning operations, or to at least limit these operations to a corresponding minimum.
In particular with highly viscous filling materials, which have good wetting properties relative to the inner walls of the inner container, a substantially complete draining of the known inner containers can turn out to be very complicated and time-consuming, since the container shape is substantially oriented toward making a container available having a maximized container volume, which container additionally, in respect of its outer dimensions or its embodiment, is substantially adapted to the accommodating space, which is defined on the transport pallet within the outer jacket.
The present invention is based on the task of proposing an inner container made of plastic for transporting and storing liquids as well as a transport and storage container having such an inner container, which allows the most complete draining of the residual liquid from the container with the smallest possible effort, even with highly viscous filling materials.
In accordance with the invention, the outlet neck is arranged in a funnel bottom of an outlet funnel which is embodied in the bottom wall, and which comprises four triangular funnel walls, comprising one front funnel wall, two lateral funnel walls and one rear funnel wall, wherein the lateral funnel walls are inclined from a lower edge of a side wall towards the funnel bottom in each case, embodying a truncated pyramid above the funnel bottom together with the rear funnel wall and the front funnel wall.
Due to the embodiment in accordance with the invention, the bottom wall is utilized for embodying an outlet funnel, which is defined by four triangular funnel walls that are preferably flat and which comprises a funnel bottom, in which the outlet neck is arranged. Due to the triangular embodiment of the funnel walls, the outlet funnel has the shape of a truncated pyramid above the funnel bottom, such that the funnel walls provide for a flow profile in the bottom wall of the inner container, which profile continually becomes smaller towards the outlet neck, without liquid pockets being able to be formed when a liquid is drained, which pockets would prevent a complete draining of residual liquid.
Preferably, the front funnel wall is inclined from a lower edge of a front wall towards the funnel ground, such that an arrangement of the outlet neck results, which is recessed with respect to the front wall of the inner container, an arrangement of an outlet armature thus resulting, which is correspondingly recessed and in this way protected, said outlet armature being mounted onto the outlet neck. In addition, the inclined front funnel wall allows an adaptation of the inclination angle of the front funnel wall to the inclination angles of the remaining funnel walls, which means in particular the embodiment of the same inclination angle with all funnel walls.
For a proper functioning of the outlet funnel, it is, however, sufficient if, in accordance with a possible embodiment, the front funnel wall is formed by a triangular extension of the front wall, said extension extending in the plane of the front wall.
If the lower edge of the rear wall, the lower edges of the side walls and the lower edge of the front wall are arranged in a horizontal plane of the inner container, an inner container having a funnel-shaped bottom wall results, with which inner container the front wall, the side walls and the rear wall can be implemented with the same size.
If the lower edge of the rear wall, the lower edges of the side walls and/or the lower edge of the front wall are arranged in different horizontal planes of the inner container, any number of variants of the funnel embodiment is possible, so as to be able to vary the inclination of the funnel walls and the relative position of the funnel ground or of the outlet neck at the inner container.
If the lower edge of the rear wall is arranged above the lower edges of the side walls of the inner container and the lower edges of the side walls are arranged in a horizontal plane together with the lower edge of the front wall, an inner container results, having a relatively small inclination of the rear funnel wall and a large usable holding capacity.
If the lower edge of the rear wall is arranged above the lower edges of the side walls of the inner container and the lower edge of the front wall is arranged between the lower edge of the rear wall and the lower edges of the side walls, an inner container results, having a relatively larger inclination of the rear funnel wall and a comparatively smaller usable holding capacity, wherein said inner container is particularly suitable for liquids having a higher viscosity.
If the lower edge of the rear wall and the lower edge of the front wall are arranged in a horizontal plane and above the lower edges of the side walls, an inner container results, having an even larger inclination of the rear funnel wall and a comparatively even smaller usable holding capacity, wherein said inner container is particularly suitable for liquids having a particularly high viscosity.
Comparable specifics apply to an inner container with which the lower edge of the rear wall is arranged between the lower edge of the front wall and the lower edges of the side walls.
A particularly small flow resistance in the inlet area of the outlet neck is attained if the funnel bottom is embodied to be cup-shaped and comprises a connecting face for the outlet neck, said connecting face being embodied at a lower edge of the front funnel wall and being arranged parallel to the front wall of the inner container.
The transport and storage container for liquids in accordance with the invention comprises an inner container made of plastic having the features described herein, wherein the inner container is arranged, for support, with its bottom wall on a pallet bottom of a transport pallet that is provided with an outer jacket for accommodating the inner container, and wherein a supporting means is arranged between the bottom wall of the inner container and the pallet bottom, said supporting means comprising a supporting surface that is adapted to the bottom wall in respect of its inclination.
The transport and storage container in accordance with the invention, due to a simple combination of a conventional transport pallet, which comprises an outer jacket, with a supporting means, thus makes it possible to use an inner container that has the advantages which are described herein.
The transport and storage container in accordance with the invention makes it possible to use an inner container that allows an improved draining of the residual liquid, without there being the need to deviate from the transport pallet that is usually used with a transport and storage container, or from the outer jacket that is embodied in the usual manner so as to be able to utilize the advantageous effects of the inner container.
It has a particularly advantageous effect with regard to the total height of the transport and storage container if the supporting means, for embodying the supporting surface for the bottom wall, comprises a supporting frame having a recess for the outlet funnel and having a recess for passing through an outlet armature that is arranged at the outlet neck, such that the outlet funnel can be accommodated in the supporting means in a manner being retracted.
Preferably, the supporting frame comprises a supporting brace for supporting the inner container, said supporting brace bridging the recess for passing through the outlet armature that is arranged at the outlet neck.
If, in accordance with an advantageous embodiment, the supporting means, for embodying the supporting surface for the bottom wall, comprises a supporting ramp in a rear section of the supporting frame, a particularly safe support of an inner container is possible, said inner container comprising a bottom wall that is inclined from the lower edge of the rear wall towards the funnel bottom.
If the supporting ramp is formed, at least partly, from a supporting top that is arranged on a supporting base of the supporting frame, the best possible adaptation of the supporting means to inner containers having different bottom walls can be attained with a small effort, based on a ready-to-use embodiment of an elementary form of the supporting means, by adding an individual supporting superstructure.
For reducing the number of components of a transport and storage container, the supporting frame can be embodied to be linked to the pallet bottom in one piece, which means, for example, as a molded part.
It is particularly advantageous if the supporting means is embodied, at least partly, as a blow molded part, such that the same technology can be used for producing the supporting body and for producing the inner container.
It is in particular advantageous if the supporting frame is embodied as a blow molded part, thus allowing to be easily adapted, in respect of its shaping, to the bottom wall or to the outlet funnel of the bottom wall.
If the supporting frame and the supporting top are embodied as blow molded parts, the two components can be produced in a common production process.
It is alternatively possible to embody the supporting means, at least partly, as an injection molded part.
If the supporting means is embodied at least partly as an injection molded part, there is the advantage that the supporting means can be implemented, due to an optimized design, with the smallest amount of material used possible and, nevertheless, having a high dynamic load capacity.
If the supporting frame is embodied as an injection molded part, the same cannot only be easily adapted to the bottom wall or to the outlet funnel of the bottom wall in respect of its shaping, but also has a particularly high stability.
If the supporting frame and the supporting top are embodied as injection molded parts, the two components can be produced in a common production process.
In particular for producing a supporting means, which is composed of simple flat parts, nevertheless allowing an adaptation to the surface of the pallet bottom as well as to the bottom wall as well as to the outlet funnel of the inner container, it is advantageous if the supporting means is embodied as a framework having a plurality of supporting ribs which are arranged transversely to the longitudinal direction of the inner container, and which are connected to one another via horizontal connection elements.
If the supporting means is embodied as a bar framework having a plurality of bars that are connected to one another, it is, for example, possible to implement the supporting means as a welded construction, wherein it turns out to be advantageous in particular to use tubes due to their high bending resistance as compared to the amount of material used.
If the bar framework is formed, at least partially, by bars of the outer jacket, the amount of material used for producing the bar framework can be minimized by using bars of the outer jacket which already exist.
For preventing an undesirable surface pressure at the contact points between the bars of the bar framework and the inner container, it is advantageous if the bar framework, for embodying supporting surfaces, is provided with load-bearing surfaces, which are preferably formed from pieces of sheet metal, such that welding to the bars of the bar framework is easily possible.
Preferred embodiments of the inner container in accordance with the invention and of the transport and storage container in accordance with the invention will be defined in more detail below by means of the drawing.
In the figures:
The transport pallet 11 of the transport and storage container 10 that is illustrated in
Deviating from the transport pallet 11 that is illustrated in
The supporting means 17 which is arranged on the pallet bottom 16, as can in particular be seen from the
As it becomes clear in particular from a combined view of the
As is shown in particular by the
In the case of the illustrated exemplary embodiment, the inclination angles α, β, γ are embodied with the same size, constituting an angle between 20 and 30°, preferably 26°. In addition, the lower edges 32, 33 of the side walls 30, 31 and the lower edge 27 of the front wall 28 are located in a common horizontal plane E, whereas the lower edge 37 of the rear wall 38 is arranged above the lower edges 32, 33 of the side walls 30, 31.
The funnel bottom 34 is embodied to be cup-shaped, having a connecting face 43 for the outlet neck 20, said connecting face being embodied in a lower edge area 42 of the front funnel wall 40 and being arranged parallel to the front wall 19 of the inner container 15.
As it results from the above explanations referring to the
Depending on whether the inclination angles of the funnel walls are embodied to correspond to or differ from one another, a regular truncated pyramid, which is straight or sloping, results as the shape of the outlet funnel.
Deviating from the embodiment of a supporting means 17, which embodiment is illustrated in
In
In
For embodying a supporting ramp 69, the supporting frame 64 is provided with a supporting base 70, in a manner comparable to the supporting frame 55 that is illustrated in
Deviating from the supporting means 50, 54 and 62 which are illustrated in the
For example,
As is in particular shown by the
Number | Date | Country | Kind |
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10 2013 205 688.5 | Mar 2013 | DE | national |