EP0671339A1 - Bunghole plug with venting device - Google Patents

Abstract

The cap has an annular seal and thread to engage with a corresponding thread in the opening of a container. The gas discharge vent is comprises an insert which forms an excess pressure control (11) which is opened at a pre-set nominal value of approximately 200 hPa (= 0.2 bar) internal excess pressure, or of 350 hPa (0.35 bar). The insert is in the form of a gradated, mushroom shaped, rigid plastic bung (16) which has a radially wide, flat cylindrical, disc shaped top part, a smaller diameter, cylindrical middle part, and a pin shaped, thinner bottom part. The top of the bottom part has cylindrical steps with its lower part is thicker and wider, having a frusto-conical shape. The bottom part is pressed into a hole (15) in the bung (9).

Description

The present invention relates to a bung plug or a screw cap made of thermoplastic, with a degassing device, with a screw thread and with a circumferential ring seal for gas and liquid-tight screwing into or screwing onto a corresponding bung of a filling or emptying opening of a container for storage and for the transport of particularly dangerous liquid filling goods. Such bung plugs or screw lids, screw caps or screw caps are used in industry for example for canisters, for facets, for sheet steel or plastic sheet drums with a filling volume of up to 220 l or for larger screw lids for pallet containers, so-called IBCs, with a filling volume of approx . 1000 l used.

When using certain filling materials that are subjected to special stresses (solar radiation, temperature fluctuations) during transport due to vibrating movements or when stored outdoors and thereby form high vapor pressures and / or generally tend to degassing, a disadvantageous internal pressure (excess pressure) can build up in the container. So it is z. B. required for decomposing substances such as peroxide to enable degassing even at the lowest pressures. On the other hand, products with hot filling can also experience a considerable negative pressure if the container is closed immediately after filling and then the product cools down. Such negative pressure must be avoided, however, since it can lead to considerable denting of the container.

It is known to provide corresponding two-way valves in containers which enable gas exchange of the interior of the container with the atmospheric environment in both directions and reduce both a container overpressure and a vacuum. Such two-way valves are already open at the slightest pressure difference and it can, for. B. at a negative pressure in the container rainwater and get into the container, unless care is taken that the rainwater can run off and does not accumulate above the bung plug.
The known gassing and degassing devices therefore have the disadvantage that they only offer a slight and undefined resistance to an internal pressure. Degassing therefore usually takes place even at the slightest excess pressure.

In special cases, however, it may be desirable that the degassing device only opens at a defined higher internal pressure, for. B. to prevent excessive permanent bulging of the container, in particular rectangular pallet containers. Furthermore, it may make sense from a safety point of view to use such a degassing device as a safety bursting device, e.g. B. in the event of a local fire to prevent bursting (bursting) of the container with excessive heating, especially if it is filled with dangerous liquid contents.

It is therefore an object of the present invention to provide a simple and inexpensive bung plug with degassing device, by means of the container such. B. sheet drums or pallet containers for the storage and transport of particularly dangerous liquid goods can be secured against excessive pressures, but which do not allow uncontrolled degassing even at the lowest internal pressures.

To solve this problem, in the case of a plug of the type mentioned at the outset, the degassing device is designed as an overpressure safety device such that it only opens at an specifiable setpoint of approximately 200 hPa (= 0.2 bar) internal overpressure. This defined opening pressure can be appropriate and expedient in particular in the case of products with a comparatively low boiling point.

Advantageous embodiments of the invention are the subject of the dependent claims. It is particularly advantageous if the overpressure safety device only opens at a predefinable setpoint of approx. 350 hPa (= 0.35 bar) internal overpressure. The tolerance range is approximately plus / minus 30 hPa (= 0.03 bar). This measure, that the overpressure protection only opens at a predefined, defined setpoint = minimum overpressure, ensures on the one hand that the gas phase of the container contents is not constantly "exhaled" with slight temperature fluctuations (e.g. day / night) and that air containing moisture is again " is inhaled ". In the long term, a constant exhalation or escape of the gas phase from the container also leads to a loss of the contents with considerable pollution of the environment. On the other hand, there is a certain protection against excessive internal pressure build-up and bursting (bursting) of the container, for. B. by overheating in the event of a fire in the vicinity of stored containers.

In an embodiment of the invention, the overpressure safety device is designed as a stepped, mushroom-shaped, comparatively stiff plastic stopper that has a flat cylindrical, disc-shaped upper part that is wide in the radial direction, a central part that is also cylindrical in diameter, and a cone-shaped, thinner lower part that, in turn, in its upper region stepped cylindrical and is somewhat wider and substantially frustoconical in its lower, thicker region, the lower part being able to be pressed into a corresponding opening or bore in the plug and engaging with the projecting frustoconical lower part behind the opening or in the central-centered bore in the plug . Below the disc-shaped upper part, an annular seal is provided on the circumferential side of the central part, which in one embodiment can be designed as an O-ring seal. However, it is particularly advantageous if the ring seal around the central part is designed as an annular flat seal.

In a further embodiment of the invention it is provided that the middle part has a flat circumferential annular groove on the circumference for receiving or for fixing the ring seal. Advantageously, the peg-shaped lower part of the plastic stopper is provided with at least one slot which extends as far as the middle part with a seat for the ring seal. It is particularly advantageous if the lower part of the plastic plug has a cross recess so that the peg-shaped lower part can be easily pressed into the hole in the sheet plug and clicks into place behind it.

Figur 1

in schematischer Darstellung die Verwendung einer Ausführungsform der vorliegenden Erfindung bei einem Palettencontainer,

Figur 2

die Verwendung einer Ausführungsform der vorliegenden Erfindung bei einem Kunststoff-Spundfaß,

Figur 3

eine Ausführungsform der vorliegenden Erfindung,

Figur 4

eine zweite Ausführungsform der vorliegenden Erfindung und

Figur 5

die Ausführungsform aus Fig. 3 in vergrößerter Darstellung.

The invention is explained and described in more detail below with reference to preferred exemplary embodiments illustrated in the drawings. Show it:

Figure 1

a schematic representation of the use of an embodiment of the present invention in a pallet container,

Figure 2

the use of an embodiment of the present invention in a plastic sheet drum,

Figure 3

an embodiment of the present invention,

Figure 4

a second embodiment of the present invention and

Figure 5

the embodiment of FIG. 3 in an enlarged view.

In Figure 1 , a large-volume pallet container is shown as an application example, which essentially comprises an inner container 4 for receiving liquid contents, a bottom pallet 2 and a supporting grid structure 3 attached to it as an outer jacket 1. The thin-walled inner container 4 is in the outer jacket 1 used. The inner container 4 consists of blow-molded thermoplastic or welded stainless steel sheet and has an outlet 5 in its lower region and a filler neck 6 with an external thread in its upper region. A large screw cap 7 with an internal thread is screwed onto this filler neck 6, which is shown enlarged again in the upper part of the drawing figure. The large screw cap 7 in turn has a bung hole 8 with an internal thread in the center, into which the bung plug 9 according to the invention is screwed with an external thread.
The bung plug 9, which is provided with an overpressure safety device, can, however, as shown in FIG. 2 , be screwed directly into a corresponding bung hole of a bung barrel, here a plastic L-ring barrel 10, without using the large screw cap 7.

FIG. 3 shows a preferred embodiment of the plug 9 with the overpressure protection 11 according to the invention alone. The plug 9 has an external thread 12. To seal the plug 9 against the corresponding bung hole (in the L-ring barrel or in the large screw cap of the pallet container), a circumferential groove 13 is provided on its outer circumference below the external thread 12 for receiving an O-ring seal 14. This O-ring seal 14 is compressed gas-tight and liquid-tight into the bung hole when the bung plug 9 is screwed in, and thus seals the bung plug 9 against the bung hole. The plug 9 has a central bore 15. A pressure equalization can take place through this central bore 15. In particular, after hot filling, the overpressure safety device 11, which is designed as a stepped, mushroom-shaped plastic stopper 16, is pressed into the central bore 15 only after the filling material has cooled, in order to avoid the formation of underpressures.

The plastic stopper 16 is shown enlarged in FIG . The stepped, mushroom-shaped plastic stopper 16 consists of high-molecular, comparatively rigid polyethylene (PE) and is formed in one piece as an injection molded part; it has three sections 17, 18 and 21. The first section is designed as a flat, cylindrical, disc-shaped or plate-shaped upper part 17 which is wide in the radial direction. The upper part 17 is slightly chamfered on its upper outer edge. Underneath the upper part 17, a disk-shaped central part 18 is also formed as a second partial region, which is more beveled on its lower edge, which is generally shorter in the radial direction than the upper part 17 or has a smaller diameter. This middle part 18 has in its upper outer region 18a or circumferential groove 19 for receiving and fixing an O-ring seal 20. This O-ring seal 20 is compressed when the plastic plug 16 is inserted and locked into the central bore 15 of the plug 9 and thus seals the plastic plug 16 against the plug 9 and thus the entire container, even with slight pressure differences.
The third part of the plastic plug 16 consists of a cone-shaped lower part 21, which is cylindrical in its upper, thinner region 21a and thicker and essentially frustoconical in its lower region 21b, the lower part 21 being able to be pressed into the corresponding central bore 15 of the bung 9 and can be locked. Due to the gradation of the upper region 21a, which forms an undercut 22, the plastic plug 16 is locked and held in the bore 15 of the sheet plug 9, which also has an undercut 23. For pushing in and latching, however, it is necessary that the plastic stopper 16 is made elastic in the area of the lower part 21. This is achieved, on the one hand, in that the entire plastic stopper 16 is made from a material that is tailored to the special needs, namely high molecular weight PE. On the other hand, the elasticity of the lower part 21 is brought about in that one or more slots 24 are formed in the lower part 21 in the longitudinal direction of the plastic stopper 16. Preferably, two mutually perpendicular slots 24 are provided in the lower part 21 as a cross slot.
Through the slots 24, an overpressure building up in the container can act directly on the middle part 18, the ring seal 20 or 25 and the upper part 17 of the plastic stopper 16. According to their geometry - above all the thickness - and according to the material used, they offer a certain resistance to the internal pressure that builds up until a critical size is reached as a setpoint and defined opening pressure, after which a higher excess pressure overcomes the sealing effect of the ring seal 20, 25 and can escape. So you can plastic plug 16 with certain opening pressures, for. B. 200 hPa or 350 hPa, or certain opening pressure ranges around these values of about plus / minus 30 hPa. For an opening pressure of approx. 200 hPa, the flat gasket 25 z. B. from a foam rubber-like material EPDM 50 plus / minus 5 Shore A and has an inner clear diameter of 12 mm +/- 0.1 and a thickness (height) of 2.6 mm +/- 0.1. This material is a rubber-based elastomer according to the ISO 1629 EPDM standard and contains the components ethylene, propylene, tar and polymer.
Another preferred embodiment of the plastic stopper 16 according to the invention is shown in FIG . The same parts are the same Provide reference numbers. The plastic stopper 16 differs from that shown in FIG. 3 essentially in that it does not have an O-ring seal, but rather the flat seal 25 which has a rectangular cross section and which has already been mentioned. In FIG. 4, a fine textile fabric-like gauze 26 is additionally arranged below the central bore or inside the bung plug 9, through which the resulting gas phase or an overpressure can escape from the container, but liquid particles are retained in the container. For an opening pressure of z. B. 350 hPa, the height of the flat gasket can be 2.1 mm and consist of a different material NBR 50 +/- 5 Shore A. As the height of the ring seal 20 or flat seal 25 increases, it is compressed more in the locked position and the setpoint opening pressure shifts to higher values.

A major advantage of the invention is given by the protected arrangement of the ring seal 20, 25 of the plastic stopper below the flat, disc-shaped upper part 17, as a result of which it is protected from solar radiation (UV exposure); so there is no premature aging, hardening or embrittlement of the ring seal and thus the opening pressure limit value.

The invention explained above on the basis of a few exemplary embodiments achieves the object stated at the outset in a simple and inexpensive manner. It can be used to secure liquid containers such as sheet drums, canisters, facets or larger pallet containers as burst protection against excessive pressures.

Reference number list

1

Outer container

2nd

palette

3rd

Lattice construction

4th

Inner container

5

Outlet (4)

6

Filler neck (4)

7

large screw cap

8th

Bunghole (7)

9

Bung plug

10th

L-ring bung

11

Overpressure protection

12th

External thread (9)

13

circumferential groove (9)

14

O-ring seal (9)

15

central bore (9)

16

Plastic plug (11)

17th

disc-shaped top (16)

18th

Middle section (16)

18a

upper section of the middle section (16)

19th

circumferential groove (18a)

20th

O-ring seal (19)

21

thinner base (16)

21a

upper area of the lower part (21)

21b

lower part of the lower part (21)

22

Undercut (21)

23

Undercut (15)

24th

Slits (21)

25th

annular flat gasket (19)

26

Gauze (9)

Claims (7)

Bung plug made of thermoplastic material with a degassing device, with a screw thread and a circumferential ring seal for gas- and liquid-tight screwing into a corresponding screw thread of a bung opening of a container for the storage and transport of particularly dangerous liquid filling goods,
characterized in that
the degassing device is designed as a pure overpressure safety device (11) which only opens at a predeterminable setpoint of approx. 200 hPa (= 0.2 bar) internal overpressure. Bung plug according to claim 1,
characterized in that
the overpressure safety device (11) only opens at a specifiable setpoint of approx. 350 hPa (= 0.35 bar) internal overpressure. Bung plug according to claim 1 or 2,
characterized in that
the overpressure safety device (11) is designed as a stepped, mushroom-shaped, comparatively rigid plastic stopper (16) which has a flat cylindrical, disc-shaped upper part (17) which is wide in the radial direction, a smaller, likewise cylindrical middle part (18) and a cone-shaped, thinner one Has lower part (21) which is stepped cylindrical in its upper region (21a) and somewhat wider and substantially frustoconical in its lower thicker region (21b), the lower part (21) in a corresponding opening (15) or bore can be pressed into the plug (9) and engages with the projecting frustoconical lower part (21a) in the bore (15). Bung plug according to claim 3,
characterized in that
the middle part (18) has a circumferential annular groove (19) in its upper region (18a) for receiving an annular seal (20). Bung plug according to claim 3,
characterized in that
the ring seal (20) is designed as a flat seal (25) which is rectangular in cross section. Bung plug according to one of the preceding claims 1 to 5,
characterized in that
the lower part (21) of the plastic stopper (16) has at least one slot (24). Bung plug according to claim 6,
characterized in that
the lower part (21) of the plastic stopper (16) has a cross slot (24).

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