PALLET CONTAINER

Abstract

A pallet container for storage and for transport of hazardous liquid or flowable materials includes a thin-walled rigid inner container made from thermoplastic, with a tubular lattice frame surrounding the inner container and having horizontal and vertical tubular rods welded together, and a rectangular base pallet supporting the inner container and connected to the tubular lattice frame. Two parallel rod-shaped crossbars extend across the top, laterally next to the upper filler neck of the cube-shaped inner container, to which the top of the inner container is fastened by means of two holders. The holders are formed in the course of the upper pinch-off seam from the plastic material of the inner container during blow molding. The top of the plastic inner container is fitted with two solid stable crossbar supporting pins which are open at the side and each engage over the two crossbars.

Claims

1. A pallet container for storage and for transport of in particular hazardous liquid or flowable filling materials, with a thin-walled rigid inner container made from thermoplastic, with a tubular lattice frame which tightly surrounds the plastics inner container as a supporting casing and consists of horizontal and vertical tubular rods which are welded to one another, and with a rectangular base pallet on which the plastics inner container rests and to which the tubular lattice frame is fixedly connected, wherein the cube-shaped plastics inner container has two longer side walls, a shorter rear wall, a shorter front wall, a container base and a top having a centrally arranged filling nozzle which is closeable by means of a screw cap, wherein two tubular-rod-shaped crossbars run at the top of the tubular lattice frame laterally next to the filling nozzle of the plastics inner container and are fastened to the two longer side walls of the tubular lattice frame and over which two holding devices which are arranged on the top and are formed from the plastics material of the plastics inner container engage centrally, characterized in that the holding devices are in the form of solid supporting pins which are open on one side, i.e. are supporting-pin-shaped, with a short free end and a comparatively long connecting region.

2. The pallet container as claimed in claim 1, characterized in that the supporting-pin-shaped holding devices are formed facing each other with their free end.

3. The pallet container as claimed in claim 1, characterized in that the comparatively long connecting region of the supporting-pin-shaped holding devices is approximately twice as long as the short free end.

4. The pallet container as claimed in claim 1, characterized in that the supporting-pin-shaped holding devices overall have a rectangular cross section, wherein the height is approx. 35 mm to 45 mmpreferably 38 mm, the length is approx. 65 mm to 80 mmpreferably 72 mm, and the thickness is approx. 5 mm to 8 mmpreferably 6 mm.

5. The pallet container as claimed in claim 1, characterized in that the short free end has a length of approx. 18 mm to 25 mmpreferably 22 mmand a free height or a distance from the top of the inner container of approx. 15 mm to 20 mmpreferably 17 mm.

6. The pallet container as claimed in claim 1, characterized in that the connecting region of the supporting-pin-shaped holding devices is formed exclusively in the obliquely running transition region of the inner container top.

7. The pallet container as claimed in claim 1, characterized in that the supporting-pin-shaped holding devices are provided at their free end with a small downwardly pointing lug.

8. The pallet container as claimed in claim 1, characterized in that the two lateral outer edges of the supporting-pin-shaped holding devices are provided with a continuous edge bead.

9. The pallet container as claimed in claim 8, characterized in that the edge bead has a width of approx. 3 mm and a height of approx. 1 mm.

Description

[0016] The invention will be explained and described in more detail below with reference to an exemplary embodiment which is illustrated schematically in the drawings, in which:

[0017] FIG. 1: shows an IBC according to the invention in a perspective oblique view,

[0018] FIG. 2: shows a plastics inner container in side view,

[0019] FIG. 3: shows the cutout of a detail from FIG. 2 with a supporting-pin-shaped holding device, and

[0020] FIG. 4: shows a perspective oblique view of the holding device according to FIG. 3.

[0021] In FIG. 1, a pallet container according to the invention (=IBC) for storage and for transport of in particular hazardous liquid or flowable filling materials is denoted by the reference sign 10. For utilization or for use of hazardous filling materials, the pallet container 10 meets particular test criteria and is provided with an appropriate official hazardous goods permit. In a design for a filling material volume of approx. 1000 l, the pallet container 10 has standardized dimensions with a length of approx. 1200 mm, a width of approx. 1000 mm and a height of approx. 1151 mm. The main elements of the pallet container 10 comprise a thin-walled rigid inner container 12 produced from thermoplastic by blow molding, a tubular lattice frame 14 tightly surrounding the plastics inner container 12 as a supporting casing, and a base pallet 16 on which the plastics inner container 12 rests and to which the tubular lattice frame 14 is fixedly connected. The outer tubular lattice frame 14 consists of horizontal and vertical tubular rods 18, 20 which are welded to each other. In order to obtain a closed lattice cage as an outer container, the annularly encircling horizontal tubular rods 18 are each fixedly connected to one another at a connecting point. In the version shown, the base pallet 16 is designed as a composite pallet with an upper steel-sheet supporting plate, with a steel tube supporting frame arranged underneath and with plastics corner and central feet. An identification panel 22 made from thin steel sheet is fastened on the front side of the tubular lattice frame 14 in order to identify the respective liquid filling material. An extraction nozzle 24 for the connection of an extraction fitting for extracting the liquid filling material is formed in the center of the base of the plastics inner container 12.

[0022] Corresponding to the dimensions of the pallet container 10, the plastics inner container 12 has two longer side walls, a shorter rear wall, a shorter front wall, a container base and a top 26 with a centrally arranged filling nozzle 30 which is closeable by means of a screw cap 28, wherein two tubular-rod-shaped crossbars 32 run at the top of the tubular lattice frame 14 laterally next to the filling nozzle 30 of the plastics inner container 12 and are fastened to the two longer side walls of the tubular lattice frame 14 and over which two solid supporting-pin-shaped holding devices 34 which are arranged on the top 26 and are formed from the plastics material of the plastics inner container 12 engage centrally.

[0023] The cube-shaped plastics inner container 12 is illustrated by itself (without the surrounding tubular lattice frame 14) in side view in FIG. 2. The base-side extraction nozzle 24 is arranged on a shorter side wall which is not visible here. The upper centrally arranged filling nozzle 30 is positioned in a lower central part 36 of the inner container 12 between two higher outer parts 38. The two solid supporting-pin-shaped holding devices 34 which are open on one side are arranged in the obliquely formed transition regions 40 from the lower central part 36 to the two higher outer parts 38.

[0024] During the blow molding operation, when the blow mold is closed, the holding devices 34 are formed in the region of the pinch-off seam from the pinched-off tube ends in depressions formed for this purpose. In the case of the previously customary closed fastening eyelets, the plastics material in the eyelet openings have had to be cut out separately after each blow molding operation. This additional working step is advantageously omitted in the case of the inventive supporting-pin-shaped holding devices 34 which are open on one side.

[0025] The enlarged illustration in FIG. 3 makes it clear that the holding devices 34 are designed as solid supporting pins which are open on one side, with a short free end 42 and a comparatively long connecting region 44. It was apparent in the previous illustrations FIG. 1 and FIG. 2 that the holding devices 34 are formed facing each other with their free end 42.

[0026] According to a structural refinement, the comparatively long connecting region 44 of the supporting-pin-shaped holding devices 34 is approximately twice as long as the short free end 42. The holding devices 34 here have overall a rectangular cross section, wherein the height is approx. 35 mm to 45 mmpreferably 38 mm, the length is approx. 65 mm to 80 mmpreferably 72 mm , and the thickness is approx. 5 mm to 8 mmpreferably 6 mm. The supporting-pin-shaped holding devices 34 are therefore virtually twice as long as they are high. The contact-bound clamping of the crossbars (without a clearance as in a closed plug-through eyelet) takes place by the fact that the short free end 42 has a length of approx. 18 mm to 25 mmpreferably 22 mmand a free height or a distance from the top 26 of the inner container of approx. 15 mm to 20 mmpreferably 17 mm.

[0027] As is furthermore clearly revealed in FIG. 3, the connecting region 44 of the supporting-pin-shaped holding devices 34 is formed exclusively in the obliquely running transition regions 40 of the inner container top 26. In order to completely rule out the crossbars 32 springing out under the holding devices 34, the two holding devices 34 are provided at their free end 42 with a small downwardly pointing lug 46.

[0028] In addition, the perspective view in FIG. 4 clearly shows that the two lateral outer edges of the supporting-pin-shaped holding devices 34 are provided with a continuous edge bead 48.

[0029] The edge bead 48 has a width of approx. 3 mm and a height of approx. 1 mm.

[0030] This increases the rigidity of the holding device, wherein a certain required elasticity is maintained in order to be able to cushion the impacts from reversing the direction during the pivoting of the top up and down during the vibration test and to transmit said impacts only to a reduced extent to the crossbars 32.

[0031] In comparison tests of vibration tests with video recording, it can be seen in a standard IBC with a known closed eyelet having a large through opening that the top with the thin eyelet strikes overall with a higher vibration amplitude and thereby with more momentum against the cross member because, as the top moves upward, the thin eyelet is raised from the cross member rod and, when the top moves downward, said eyelet strikes abruptly against the cross member whereas the open holding device is still resting on the cross member rod also in the upper turning point of the top and does not lift. As a result, the vertical pulsing in the two higher outer side regions or outer parts of the top is noticeably reduced and the vibration amplitude of the horizontal pulsing in the region of the two opposite longer side walls of the lattice cage or of the pallet container 10 is reduced. Measurements of the maximum elastic deflection of the opposite longer side walls of the lattice cage under dynamic loading have revealed that, in the case of the contact-bound form-fitting suspension of the inner container top 26 on the crossbars 32 by means of the solid supporting-pin-shaped holding devices 34 which are open on one side, a lattice deflection which is approx. 20% smaller takes place. This gives rise to significantly lower peak values of critical changing bending stresses and harmful tensile stresses on the sensitive welding points of the welded tube junctions in the lattice cage. This accounts for a longer service life and usability of the pallet containers according to the invention.

CONCLUSION

[0032] The present invention therefore, with comparatively small measures, provides a valuable step in respect of increasing value by reusing used IBCs for longer.

LIST OF REFERENCE SKINS

[0033] 10 Pallet container [0034] 12 Plastics inner container [0035] 14 Tubular lattice frame [0036] 16 Base pallet [0037] 18 Horizontal tubular rods (12) [0038] 20 Vertical tubular rods (12) [0039] 22 Identification panel [0040] 24 Lower extraction nozzle [0041] 26 Top (12) [0042] 28 Screw cap (30) [0043] 30 Upper filling nozzle (26) [0044] 32 Crossbar (14) [0045] 34 Supporting-pin-shaped holding device (26) [0046] 36 Central part (26, 12) [0047] 38 Outer part (26, 12) [0048] 40 Transition region (36-38) [0049] 42 Free end (34) [0050] 44 Connection region (34) [0051] 46 Small lug (42) [0052] 48 Edge bead (34)