EP0499918A2 - Tank with in-line arrangement - Google Patents

Abstract

In a tank with an inner liner, even materials which are difficult to store and are to be protected against air and other substances can be safely stored if the inner liner is fastened to the rising pipe in such a way as to sheath the latter. This enables the material to be effectively stored against the subsequent flow of air, the through-flow bore being placed and arranged in such a way that the air passing the through-flow bore flows in between the inner liner and the inner wall and thus without being able to reach the material which has lasted in the inner liner. <IMAGE>

Description

The invention relates to a container for pumpable materials, in particular for chemicals to be used in underground mining and tunneling for rock solidification with a riser pipe and the inliner consisting of flexible material Flow hole for air is provided.

In underground mining and tunneling, chemicals are used for various purposes, but above all for rock solidification, whereby the chemicals are kept separately and then brought together shortly before they are pressed into the mountains. With these chemicals, but also with other pumpable materials above and below ground, careful storage in containers is necessary which are sufficiently robust and are used several times. These pumpable materials are sucked out of the container with the help of a dispensing head or a pump, in order to then be used. For more valuable materials, a so-called inliner is provided, which is screwed into the container together with the fitting, i.e. the closure. In order to avoid a negative pressure in the container or here also in the inliner, a through-flow opening is provided in the inliner through which air can flow if material has been pumped out accordingly. The disadvantage here is that this air automatically flows into the inliner onto the material stored there, whereby depending on the intensity, mixing in the upper separating layer cannot be avoided. In addition, this contact between air and material makes it only possible to store such materials in appropriate containers with inliners which do not react or only react insignificantly when in contact with air.

The invention is therefore based on the object To create containers with inliners in which substances and materials that react with air or the like media can also be stored.

The object is achieved in that the inliner is fixed to the riser tube, enveloping it, the through-flow bore being arranged ending between the inliner and the inner wall.

Due to the "connection" of the inliner to the riser pipe, it is still possible to prevent the vacuum created in the container when the material is being sucked off by the fact that air is sucked in. According to the invention, however, this air no longer gets into the inliner, but rather is guided between the inliner and the inner wall, so that a vacuum is effectively prevented. It is also possible to enter compressed air simultaneously with the pumping out of the material by inserting a check valve into the throughflow bore and by applying it to a compressed air generator, so that the pumping process is correspondingly simplified or the pressing out of the material is promoted. As a rule, however, it will be sufficient to simply arrange the throughflow opening in such a way that the atmospheric air can now flow into the container without being able to make direct contact with the material held in the inliner, which can easily be achieved by appropriately terminating the inliner connection on the riser pipe is.

According to an expedient embodiment of the invention it is provided that a collar is arranged on the riser pipe at a distance from the fitting, which collar has an outer edge which is shaped corresponding to the inner part of a clamping ring closing the inliner. This training has the advantage that the inliner can be changed without any problems if this proves necessary. The connection between the riser pipe and the inliner can be easily solved by the collar and the clamping ring. At the same time, however, an effective tight connection between the riser pipe and the inliner is achieved, so that contact between the material held in the inliner and the air is excluded. The distance between the collar and the fitting ensures that the air penetrating through the through-flow bore can penetrate into the area between the inliner and the inner wall, so that the container can be filled out evenly when the pumpable material escapes from the inliner.

Another expedient training provides that the clamping ring consists of limited flexible material, preferably the material of the liner. This makes it possible to produce the clamping ring and inliner in one, with the limited flexible design of the clamping ring simultaneously ensuring an effective seal in this area. On the other hand, there is the possibility of vulcanizing the jacket of the inliner to the clamping ring, that is to say in this way establishing and ensuring an effective and tight connection.

When replacing the material held in a container, the riser pipe and the inliner are usually taken out, which is easily possible because the clamping ring and the collar seated on the riser pipe have a diameter which is smaller than that of the fitting. This means that the riser pipe and inliner can be inserted both when inserting and removing it, while the separate connection or fixing of the inliner also avoids damage in the area of the screw connection of the fitting, as was always the case with the old version. This training also has the advantage that the inliner consist of more or less flexible material can, because due to its special design, it can also be inserted into the container when it is not more or less close to the riser at the starting point. This means that the choice of material is no longer decisive, and there is even the advantage that, for example, an inliner made of aluminum or a similar material can be used, which has flexibility at all. As mentioned, there are several ways to fix the inliner to the clamping ring or to connect the two to one another in order to achieve the necessary tight seal with respect to the air-containing area of the container. According to the invention, there is also a further possibility of fixing the inliner, namely that in which the inliner is arranged clamped between the clamping ring and the collar. The inliner can also act as a seal for the gap between the inliner and the collar if it has, for example, a correspondingly beaded finish or is correspondingly covered in the upper region.

In order to specify from the outset a space into which the air can flow, i.e. to avoid clogging of the throughflow opening, it is provided that the inliner is inserted and clamped in from the edge of the clamping ring and collar facing away from the fitting. This offers the possibility of specifying a correspondingly ring-shaped area from the start, which is not filled with material at all, but always with air or possibly also with such a substance that reacts with the material held in the inliner in an emergency or danger, that the entire container or its content is neutralized and can create no problem, for example in the event of fire. Depending on the material held in the inliner, the reaction substance held in the collar area can be, for example, water or a corresponding chemical.

In order to avoid damaging the inliner when screwing in the fitting together with the riser pipe, it may be expedient if the clamping ring is rotatably arranged on the collar. It is of course also conceivable to arrange the collar rotatably on the riser pipe, so that damage to the inliner is excluded in both given solutions, because it simply remains in its specified position without having to take part in the rotation of the riser pipe or the fitting.

A type of labyrinth seal is specified in the area of the connection between the inliner and the riser pipe in that the clamping ring in the inner part has two recesses and the collar has two corresponding rings. A sufficient seal is ensured even if the clamping ring is not precisely seated, even if the inliner should be clamped between the clamping ring and the collar. In order to effectively seal this area, it can be advantageous if the clamping ring has a seal in the area of the recess or the recesses. This seal can even be provided twice, depending on how valuable the inliner material is and how reliably an air seal must be guaranteed. On the other hand, these seals naturally also act in such a way that the material cannot penetrate from the inliner area into the remaining part of the container and possibly cause damage.

In order to ensure an effective closure, but on the other hand to ensure that the material is encased as narrowly as possible by the inliner, it can be advantageous if the collar is slidably arranged on the riser pipe. The collar with the clamping ring then moves up and down on the riser pipe, depending on how far the inliner is filled with material. A stop can prevent the collar and clamping ring from being too wide, for example down into the area of the inlet openings.

The invention is particularly characterized in that a container with an inliner is created which can be used for a wide variety of purposes. Above all, in such a container against air or the like. Chemical-sensitive material is kept in stock without the risk that a negative negative pressure will arise when pumping out the material in the container. Rather, the throughflow opening can now be designed and constructed such that even attempts to sabotage are harmless, in which any harmful parts are introduced into the container through the throughflow opening. They stay on the inliner and cannot access the stored and stored material. In this way, highly sensitive and above all valuable, easily with air or the like. Chemical-reacting materials are kept in such a container and can be easily and safely manipulated from there because the material can be easily removed from the container by attaching an appropriate dispensing head. Of course, this also applies to oil or petrol, which can be accommodated in such an arrangement, secured in such containers, without the slightest risk that parts of the material volatilize through the flow opening or accumulate in the interior of the container. The present drawing is characterized by considerable technical progress and can be used with great advantage in mining subject to special safety conditions, but also in all other areas.

Fig. 1

eine Teilansicht eines Behälters mit Fitting, Steigrohr und Inliner,

Fig. 2

die Verbindung zwischen Steigrohr und Inliner und

Fig. 3

verschiedene weitere Ausbildungen der Verbindung zwischen Steigrohr und Inliner.

Further details and advantages of the subject matter of the invention emerge from the following description of the associated drawing, in which preferred exemplary embodiments are shown with the details and individual parts required for this. Show it:

Fig. 1

a partial view of a container with fitting, riser pipe and inliner,

Fig. 2

the connection between riser pipe and inliner and

Fig. 3

Various further training of the connection between the riser pipe and the inliner.

The container (1) is only shown with respect to the container wall (2) in the area where the fitting (4) is screwed into a corresponding container recess (11). The container wall (2) and the fitting (4) have a corresponding thread (12) so that the fitting (4) can be screwed in easily. The inside, i.e. the inner wall of the container (1) is designated (3).

In the container (1), a riser pipe (5) is inserted, which has inlet openings (6) at the lower end, so that the material held in the container (1) is easily sucked out by a dispensing head (7) placed on top of the fitting (4) can be. For this purpose, the fitting (4) has an inner bore (8) into which the riser pipe (5) is inserted. In addition, the fitting (4) has a throughflow opening (9) through which air can flow into the interior of the container (1) as indicated by the arrow when the material held in the container (1) is sucked out as mentioned above .

The material (not shown here) held in the container (1) is surrounded by the inliner (10) which, when the inliner (10) is full or the container (1) is full, lies tightly against the inner wall (3) of the container (1) , as shown in Fig. 1. The arrow (13) indicates that the air flowing in through the throughflow opening (9) flows into an area between the inner wall (3) and the liner (10) in the embodiment shown in FIG. 1. This air thus comes with that held in the inliner (10) Material not connected at all.

The inliner (10) shown in FIG. 1 is not connected in any form to the container (1), but directly to the riser pipe (5). For this purpose, the riser pipe (5) has a collar (14), the outer edge (15) of which is shaped in such a way that the clamping ring (16) with a corresponding inner part (17) can be placed or clamped thereon. In the embodiment shown in FIG. 1, the collar (14) is equipped with two rings (18, 19), while the inner part (17) of the clamping ring (16) has correspondingly shaped recesses (20, 21).

In the embodiment shown in FIG. 1, the inliner (10) is vulcanized onto the outer jacket (27) of the clamping ring (16), as a result of which an intimate connection is established. The corresponding illustration is shown in FIG. 2, where the area is enlarged, on which the inliner (10) is integrally formed on or connected to the clamping ring (16). It is also shown here that a zone can be specified with the aid of a fixing ring (24) which is best suited for connecting or placing, gluing or vulcanizing the end edge (28) of the inliner (10).

Fig. 2 also shows a special training in that here between the collar (14) and the clamping ring (16) seals (25, 26) are shown, which effectively prevent the outflow of gas, for example, out of the inliner (10) when, for example, evaporating Fabrics are kept in the inliner (10). In the embodiment shown in FIG. 2, the seals (25, 26) are arranged in corresponding groove rings in the clamping ring (16), an annular sealing joint (30) being able to be provided on the opposite side in the collar (14) in order to provide a favorable contact surface to ensure for the seals (25, 26).

Fig. 3 illustrates that in addition to the connection between the clamping ring (16) and the liner (10) shown in FIGS. 1 and 2, there are further possibilities for fixing. Thus, (10 ') shows the end edge (28') being pinched, the design of the clamping ring (16) ensuring that an effective end and an effective connection remain guaranteed. The same applies to the design represented by (10 '' '), in which the inliner (10) is inserted from above into the area between the collar (14) and the clamping ring (16).

A third variant is that in which the end edge (28 '') of the inliner (10 '') is inserted into a corresponding recess (31) on the lower edge (22) of the clamping ring (16) and is thus fixed. It is also conceivable to provide a corresponding recess on the upper edge (23) of the clamping ring (16).

All of the features mentioned, including those that can be seen in the drawings alone, are regarded as essential to the invention, alone and in combination.

Claims (10)

Containers for pumpable materials, in particular for chemicals to be used in underground mining and tunneling for rock solidification with a riser pipe and the inliner made of flexible material, whereby in the fitting, which can be screwed into a container recess, an inner bore receiving the riser pipe and a throughflow hole for air are provided is
characterized,
that the inliner (10) on the riser pipe (5), this is fixed enveloping, the flow opening (9) between the inliner and the inner wall (3) is arranged ending. Container according to claim 1,
characterized,
that on the riser pipe (5) at a distance from the fitting (4) a collar (14) is arranged, which has an outer edge (15) with the inner part (17) of a locking ring (16) closing the inliner (10) shaped accordingly is. Container according to claim 2,
characterized,
that the clamping ring (16) consists of limited flexible material, preferably the material of the inliner (10). Container according to claim 2,
characterized,
that the clamping ring (16) and on the riser (5) seated collar (14) together have a diameter which is less than that of the fitting (4). Container according to claim 1,
characterized,
that the inliner (10) is arranged clamped between the clamping ring (16) and collar (14). Container according to claim 5,
characterized,
that the inliner (10) is inserted and clamped in from the edge (22) facing away from the fitting (4) of the clamping ring (16) and collar (14). Container according to claim 2,
characterized,
that the clamping ring (16) is rotatably arranged on the collar (14). Container according to claim 2,
characterized,
that the clamping ring (16) in the inner part (17) has two recesses (20, 21) and the collar (14) has two corresponding rings (18, 19). Container according to claim 2,
characterized,
that the clamping ring (16) has a seal (25) in the region of the recess (20) or the recesses (20, 21). Container according to claim 2,
characterized,
that the collar (14) on the riser (5) is slidably disposed.

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