EP0639138B1 - Plastic barrel - Google Patents

Abstract

A plastic, cylindrical walled barrel (10) has a circular base (14) and an upper cover (16) with an outlet (20). Around the periphery of the upper cover (16) and forming part of the barrel wall (12) is a lifting and transporting lip (22). The lip (22) has a horizontal lower edge inclined downward and a vertical inner face (26) inclined inwards. The barrel outlet (30) projects from a recessed area of the upper cover (16) and has an internal dia. of 100mm or more. A sealing cap (32) screws onto the outlet (30).

Description

The invention relates to a plastic barrel with a substantially cylindrical barrel wall, a flat disk-shaped barrel bottom and a corresponding barrel top, in which a closable bunghole opening is optionally arranged, and with a circumferential carrying and transport ring arranged in the vicinity of the barrel top on the barrel outer wall bottom-facing horizontal and inward-facing vertical contact surface for the gripper claws of a drum gripper.

Such a plastic barrel is such. B. from WO-A-9 112 179 known.

Usual bung barrels with usual bunghole openings can only be used for the storage and transport of liquids; Because of the small bunghole opening (2 inches), bung barrels are unsuitable for viscous or particulate contents.
The usually for the storage and transportation of tough or solid contents such. B. bitumen, paint, fruit concentrates, granules, bulk goods or similar used lid barrels are comparatively expensive because of the required accessories (large lid and clamping ring closure), especially for simple applications such. B. the transport of gritty products such as plastic granules (e.g. EPS = Expandable Polystyrene) and have worse falling properties than closed lid drums.

It is an object of the present invention to provide a plastic drum that is particularly suitable for the transport of viscous or gritty products.

The barrel should be inexpensive to manufacture and also be handled with conventional barrel gripper tools.
This object is achieved by the features of the characterizing part of claim 1.
In a preferred embodiment it is provided that the diameter of the bunghole is approximately 150 mm. In another special embodiment, the diameter of the bunghole connector is approximately 225 mm. It is advantageous to use only these diameter sizes equally for all different barrel sizes (eg 120 l, 220 l). The L-ring barrel according to the invention with the screw cap arranged in the center is less expensive to produce than a conventional standard lid barrel and, in contrast, has better falling properties. The screw caps are also much cheaper to produce than the large drum caps (since they are only available in two sizes), and there is no need for an additional clamping ring. This provides the opportunity to offer inexpensive screw-top drums, both for the aforementioned application for gritty products or granules, and for example for filling lumpy foods or viscous fruit concentrates with whole pieces of fruit. Compared to lid drums there are further advantages because the screw lid drums according to the invention with the upper carrying and transport ring (Mauser L-ring) can be manipulated or handled with the same drum gripper tools as for conventional steel or plastic sheet drums.

In a preferred embodiment, the barrel is blown in one piece. The barrel can of course also be welded together from an upper bottom (and possibly also underbody) separately prefabricated by injection molding with an extruded cylindrical barrel body blank made of two (or three) parts.
Furthermore, the barrel according to the invention can also be equipped with a circumferential stable floor rolling ring on the lower barrel edge in the transition region from the outer barrel wall and flat barrel bottom.

An important feature of the invention is that regardless of the capacity of the L-ring drums (eg 60 l, 120 l, 150 l, 160 l or even 220 l), the same dimensions of the two preferred sizes of the screw cap always remain. The smaller version of the screw cap has an outer diameter of approximately 180 mm, while the outer diameter of the larger screw cap is approximately 270 mm.
In the present case, the bung has an external thread for the screw cap according to the invention, which is equipped with an internal thread; the usual small 2-inch bunghole spigots of normal bung barrels, on the other hand, always have an internal thread and the associated bung plug has a corresponding external thread.

In an embodiment of the invention it is provided that the level of the screw cap screwed onto the bunghole connector is arranged at the same height or almost flush with the top of the barrel or below the top of the barrel.
The screw cap, which is sunk in the middle of the top of the barrel in a bung, is optimally protected in the event of a barrel crash and in no case comes into direct contact with the floor in the event of a floor impact.

Figur 1

ein erfindungsgemäßes Schraubdeckel-Faß in Seitenansicht mit Teilschnittdarstellung,

Figur 2

den oberen Randbereich eines Fasses mit größerem Schraubdeckel,

Figur 3

den oberen Randbereich eines Fasses mit kleinerem Schraubdeckel,

Figur 4

den oberen Randbereich eines Fasses mit kleinerem Schraubdeckel und zusätzlichem Restentleerungs-Spundloch,

Figur 5

eine Draufsicht auf ein erfindungsgemäßes Schraubdeckel-Faß,

Figur 6

eine perspektivische Ansicht eines weiteren erfindungsgemäßen Schraubdeckel-Fasses,

Figur 7

eine Schnittdarstellung des Faß-Kopfes aus Fig. 6 und

Figur 8

die Draufsicht auf eine weitere Ausführungsform eines Schraubdeckelfasses.

The invention is explained and described in more detail below on the basis of exemplary embodiments schematically illustrated in the drawings. Show it:

Figure 1

an inventive screw cap barrel in side view with partial sectional view,

Figure 2

the upper edge of a barrel with a larger screw cap,

Figure 3

the upper edge of a barrel with a smaller screw cap,

Figure 4

the upper edge area of a barrel with a smaller screw cap and additional drain hole,

Figure 5

a plan view of a screw cap barrel according to the invention,

Figure 6

2 shows a perspective view of a further screw cap barrel according to the invention,

Figure 7

a sectional view of the barrel head of Fig. 6 and

Figure 8

the top view of another embodiment of a screw cap barrel.

In FIG. 1 , reference number 10 denotes a plastic barrel (HOT barrel) according to the invention, which has a cylindrical barrel wall 12, a disk-shaped barrel bottom 14 and a corresponding barrel top 16. In the outer transition area of the barrel top 16 to the barrel outer wall 12, a circumferential carrying and transport ring 22 is formed with a downward-facing horizontal contact surface 24 and with an inward-facing vertical contact surface 26 for the gripper claws of a drum gripper that is customary for steel drums.
In the center of the top of the barrel 16 is a recessed bung housing 28 with one from the flat bung housing bottom 40 upstanding or protruding bunghole connector 30 formed with an external thread.
The inside diameter of the bunghole connector 30 or the bunghole opening 20 (18) is at least 100 mm or more (larger) and is closed in a gas-tight and liquid-tight manner by means of a screw-on screw cap 34 (32) with a corresponding internal thread at the flange edge.

The smallest inside diameter of the bunghole should not be less than 100 mm, since the opening should be at least large enough that you can reach in with your hand. Of course, this minimum opening width is also very advantageous for a complete interior cleaning of the barrel with multiple use.
On the other hand, the bunghole opening should not be significantly larger than half the barrel diameter; then on the one hand the cost advantage is lost and on the other hand the drop resistance can possibly be reduced because, for example, a strong elastic bulge in the top surface could possibly cause a leak on the screw cap.
FIG. 2 shows the upper barrel section with the larger bunghole opening 18 with an inside diameter of the bung 30 of approximately 225 mm. Here, the diameter of the sheet pile housing measured in the height plane of the top of the barrel is between 300 mm and 400 mm, preferably approximately 330 mm, and the diameter of the flat sheet pile housing base is between 250 mm and 330 mm, preferably approximately 270 mm.
The larger screw cap 32 with an outer diameter of approx. 270 mm can be provided on its surface with projecting ring web pieces for attaching a key tool.

The other preferred embodiment with the smaller bunghole 20 having an inner diameter of The spigot 30 of approximately 150 mm is shown in FIG. 3 . Here, the diameter of the sheet pile housing, measured in the height plane of the barrel top, is between 200 mm and 300 mm, preferably approximately 230 mm, and the diameter of the flat sheet pile base is between 180 mm and 250 mm, preferably approximately 190 mm.
The smaller screw cap 34 with an outer diameter of approximately 180 mm is preferably provided with a flat surface. The flat, disc-shaped surface of the screw cap is adjoined by a flange edge that protrudes at a right angle and has a height of approx. 40 mm. On the outside, some web-like knobs or corrugated projections are formed on the flange edge for better manual gripping when the cover is screwed on. The flange edge has an internal thread and the bunghole connector 30 has a corresponding external thread. At a short distance from the flange edge, a second, somewhat shorter flange ring also protruding at right angles is formed on the inside of the screw cap. A circumferential U-shaped groove is formed between the outer flange edge and the inner flange ring, into which a seal is inserted, which seals the screw cap against the upper end edge of the bunghole connector 30.
In this embodiment, the level of the screw cap screwed onto the bunghole connector ends between the level of the top of the barrel and the level of the upper end edge of the carrying and transport ring 22.

In an embodiment not shown in the drawing, the level of the top of the barrel is arranged above the level of the front edge of the carrying and transport ring.
This is advantageous when stacking similar barrels on top of each other in the stacked barrel a supporting internal pressure is built up before the stack load is introduced into the carrying and transport ring.

FIG. 4 shows a further embodiment according to the invention in a partial sectional view, in which a second small closable bunghole opening 38 is provided in the top 16 of the barrel in addition to the screw lid opening (18, 20) with a large diameter for emptying the contents of the barrel completely. Expediently, this bunghole opening 38 initially remains closed at the bottom (inside) during the blow molding process. Only if necessary, can lateral holes be drilled into the threaded connector or the disk-shaped base piece of the threaded connector is cut out. The bunghole opening 38 can be closed with a corresponding conventional bung plug. In the embodiment shown, the level of the top 16 of the barrel is arranged below the level of the front edge 36 of the carrying and transport ring 22, while the screw cap 34 projects slightly above the top 16 of the barrel.
In this embodiment, a central support and a circumferential support of an over-stacked barrel of the same type take place.
In a modified embodiment, however, the end edge 36 of the carrying and transport ring 22, the barrel top 16 and the screw cap 32, 34 screwed onto the bunghole connector 30 can be arranged essentially at the same height level.
FIG. 5 shows a top view of the barrel design according to FIG. 4. The additional bunghole opening 38 can, but does not necessarily have to be formed, for example, when used for granular filling goods.

In a further developed embodiment - shown in FIG. 6 - at least one radially running water drainage channel 42 is formed in the barrel top 16, which opens on the inside into the bung housing 28 and on the outside into the engaging groove 44 running behind the carrying and transport ring 22 in the circumferential direction.
This prevents, for example, large amounts of rainwater from accumulating in the bung 28 when such a barrel is stored outdoors. Thus, the rainwater that collects can flow through the gutter 42 out of the bung housing 28 into the deeper engaging groove 44 behind the carrying and transport ring 22. At least one point, preferably at several points, through the connecting web of the carrying and transport ring, corresponding water drainage holes opening into the bottom of the engaging groove 44 are arranged, so that no rainwater can collect at all in the engaging groove 44.

Another feature according to the invention is realized in FIG . In order to improve the residual emptying of the barrel in a 180 ° inversion position, here the barrel top 16 is inclined slightly at an overall angle, namely - viewed in the normal position of the barrel - on the side of the additional residual emptying bunghole 38 between 2 mm and 12 mm, preferably about 8 mm, higher than on the side opposite the smaller bung hole 38.
The height difference of approximately 8 mm is also indicated in FIG. 4 by the dashed line of contour of the low barrel top area and the spacing arrows attached at right angles to it. When such drums are stacked one on top of the other, central support is provided via the screw cap 32 and circumferential support is provided via the carrying and transport ring 22 of the stacked drum.

In order to achieve stack support in the area of the barrel top in between, corresponding attachment elements 46 can be arranged on the surface of the barrel top, as shown in FIG . The attachment elements 46 are each flush with the carrying and transport ring 22. In the embodiment shown in FIG. 8, eight web-shaped attachment elements 46 are provided which are evenly spaced from one another. The attachment elements can of course also have a different, for example rectangular or square shape and be formed immediately during the blow molding of the barrel or later glued or welded on as separately prefabricated injection molded parts. It is even easier to design the top of the barrel overall with a carrying and transport ring, bung neck and attachment elements in the injection molding process, after which the top of the barrel is welded onto the barrel body blank.

The screw cap barrel according to the invention is thus excellently suitable for particulate and liquid filling goods. The large container opening is also advantageous for the use of an agitator (agitator), for example, in the case of fillings that tend to separate (eg zinc oxide paint), which have to be mixed and homogenized before the contents are removed. The barrel is also suitable for multiple use, as it can be cleaned from the inside, in contrast to conventional sheet drums. And thanks to the large container opening, the problem-free use of a corresponding thin-walled plastic liner for the first time for a closed L-ring barrel is made possible.
In order to finally expand the area of use of the screw-cover L-ring barrel for fillers that tend to degass, the screw cover 32 itself is equipped with a bung plug 50 having a degassing device 48, as indicated in FIG. 8, which prevents overpressure inside the barrel.
Of course, the screw cap L-ring barrel according to the invention can also be equipped with a bottom rolling ring running around the bottom.

Claims (15)

1. A plastics barrel (10) with a substantially cylindrical barrel wall (12), a disk-shaped barrel floor (14) and a corresponding barrel top (16), in which a closable closure aperture is optionally arranged, and with a circumferential carrying and transporting ring (22), which is arranged on the outer barrel wall (12) in the vicinity of the barrel top (16) and comprises a downward facing horizontal and an inward facing vertical bearing surface (24, 26) for the grab claws of a barrel grab,
   characterised in that a recessed closure housing (28) with a projecting closure socket (30) is arranged in the centre of the barrel top (16), the internal diameter of the closure socket (30) measuring at least 100 mm or more and this closure socket (30) being closable in a gas-tight and liquid-tight manner by means of a screw lid (32, 34) which can be screwed thereon.
2. A plastics barrel according to claim 1,
   characterised in that the internal diameter of the closure socket (30) measures approximately 150 mm for a screw lid with an external diameter of approximately 180 mm.
3. A plastics barrel according to claim 1,
   characterised in that the internal diameter of the closure socket (30) measures approximately 225 mm for a screw lid with an external diameter of approximately 270 mm.
4. A plastics barrel according to claim 1 or 2,
   characterised in that, measured in the horizontal plane of the barrel top (16), the diameter of the closure housing (28) is between 200 mm and 300 mm, preferably approximately 230 mm, and the diameter of the flat closure housing floor (40) measures between 180 mm and 250 mm, preferably approximately 190 mm.
5. A plastics barrel according to claim 1 or 3,
   characterised in that, measured in the horizontal plane of the barrel top (16), the diameter of the closure housing (28) is between 300 mm and 400 mm, preferably approximately 330 mm, and the diameter of the flat closure housing floor (40) measures between 250 mm and 330 mm, preferably approximately 270 mm.
6. A plastics barrel according to claim 1, 2, 3, 4 or 5, characterised in that the horizontal plane of the screw lid (32) screwed onto the closure socket (30) is arranged at the same height as or approximately flush with the barrel top (16) or beneath the barrel top (16).
7. A plastics barrel according to one of the preceding claims 1 to 5, characterised in that the horizontal plane of the screw lid (12) screwed onto the closure socket (30) ends between the horizontal plane of the barrel top (16) and the horizontal plane of the upper edge (36) of the carrying and transporting ring (22).
8. A plastics barrel according to one of the preceding claims 1 to 7, characterised in that the horizontal plane of the barrel top (16) is arranged above the horizontal plane of the upper edge (36) of the carrying and transporting ring (22).
9. A plastics barrel according to one of the preceding claims 1 to 7, characterised in that the horizontal plane of the barrel top (16) is arranged beneath the horizontal plane of the upper edge (36) of the carrying and transporting ring (22).
10. A plastics barrel according to one of the preceding claims 1 to 6, characterised in that the upper edge (36) of the carrying and transporting ring (22), the barrel top (16) and the screw lid (32, 34) screwed onto the closure socket (30) are arranged in substantially the same horizontal plane.
11. A plastics barrel according to one of the preceding claims 1 to 10, characterised in that a second, small closure aperture (38) is additionally provided laterally in the barrel top (16) for emptying the residual barrel content.
12. A plastics barrel according to one of the preceding claims 1 to 11, characterised in that the barrel top (16) as a whole is slightly inclined, namely - viewed in the normal position of the barrel - is constructed so as to be between 2 mm and 12 mm, preferably approximately 8 mm, higher on the side comprising the additional residue emptying closure aperture (38) than on the side opposite the smaller closure aperture (38).
13. A plastics barrel according to one of the preceding claims 1 to 12, characterised in that at least one radially extending water drainage channel (42) is formed in the barrel top (16), which channel extends on the inside into the closure housing (28) and on the outside into the engagement groove (44) extending circumferentially behind the carrying and transporting ring (22).
14. A plastics barrel according to one of the preceding claims 1 to 13, characterised in that at least two or more uniformly spaced apart, preferably ridge-like stacking elements (46) are provided.
15. A plastics barrel according to one of the preceding claims 1 to 14, characterised in that a stable, circumferential floor-rolling ring is provided on the lower barrel edge in the transition region between the outer, cylindrical barrel wall (12) and the flat barrel floor (14).

Images