EP2361840A1 - Canister - Google Patents

Abstract

The canister comprises an outlet end, an outlet opening and an outlet connector (2) having an outside thread (2a), where a discharge pipe (5) is arranged in an inner side of the canister. The discharge pipe has a recess or a groove (8) proceeding over a portion of its extension. The discharge pipe has a sealing seat at the outlet connector of the canister in the closed position. The discharge pipe is connected with a cover (4).

Description

The invention relates to a canister for liquid, in particular for fuel, with an outlet connection having an external thread and an outlet end and an outlet opening having an outlet end when not in use, which at its outlet end opposite inlet end and an associated inlet opening a threaded part with a Having internal thread, which fits both when not in use and in use position on the external thread of the outlet nozzle of the canister and on which when not in use in the closed position, a closure cap with an internal external thread is screwed

Such a canister is known and has the advantage that the outlet pipe is always at hand and is not exposed to a risk of contamination or loss as a separate outlet pipe.

When not in use, both the thread to Fixing the outlet pipe in the canister as well as the thread for the lid closed. Since when heated by sunlight, for example, a portion of the fuel in the canister evaporate and then can produce an overpressure in the canister, there may be an escape of fuel when opening the closure cap before loosening the screw of the outlet pipe, because this is due to the Canister located overpressure can be pushed out through the outlet pipe and accelerated out as a jet. Especially with partially filled canisters, this undesirable effect can occur.

It is therefore the object to provide such a canister with outlet pipe, in which under pressure, leakage of fuel when loosening initially only the lid can be prevented.

To achieve this object, it is provided that the outlet pipe has a recess or groove extending over at least part of its extent and at least over part of its circumference up to a portion located in the closure lid when not in use, that in the closed position the outlet pipe forms a sealing seat on the outlet nozzle of the canister and that the outlet pipe is so non-positively connected to the closure lid, that it can be lifted by opening the closure lid from the sealing seat on the outlet nozzle. The outlet pipe is sealed in the closed position on the canister together with the closure cap and has a sealing seat on the outlet nozzle of the canister. The groove, which extends axially on the outlet pipe in its direction of extent, acts as a venting channel, via which a pressure equalization between the canister interior and the environment can take place. The pressure equalization without such a groove on the outside of Outlet pipe can be done only on the outlet pipe itself, which can lead to the fact that the canister content, especially in partially filled canisters, can be pressed out and accelerated when opening the closure lid. In order to prevent this, the air flow resulting from the overpressure inside the canister and when the canister is opened can be guided past the outflow tube and outwards via the groove or recess and the internal external thread of the partially opened closure cap. The groove on the outlet pipe is brought to the venting of the canister in working position by the outlet pipe is at least slightly lifted when opening the closure lid by the frictional connection between the outlet pipe and cap from its sealing seat to a permeable connection between the environment and the interior of the canister over to open the groove, which can escape by its befindliches in the threaded part internal external thread by the beginning of the opening of the closure lid of the overpressure.

A favorable embodiment of the canister according to the invention can provide that the outlet pipe has at least two recesses or grooves extending over a part of its extension up to a section located in the closure cover when not in use. As a result, the effective usable ventilation cross-section can be increased. With two or more grooves, the desired venting of the canister can be done faster than with only one groove or recess. Thus it can be avoided with even greater certainty that, when the closure cap is opened, liquid escapes unintentionally and, under certain circumstances, even gushing out of the canister, since the pressure equalization over the larger vent cross section two or more grooves and can be done faster over the threads in the threaded part and cap.

An advantageous embodiment of such a canister can provide that the outlet pipe is non-positively connected in the closed position with a cover part on the closure lid. Thus, the cover part ensures that the outlet tube can be lifted by the axial movement component of the closure lid when loosening.

It is advantageous if the cover part is concentric with the rotationally symmetrical inlet opening of the inlet end of the outlet pipe plug in the outlet pipe and to the inner external thread of the closure lid. In the simplest possible way can thus produce a reliable frictional connection between the inlet end of the outlet pipe and the lid part.

In addition, it may be advantageous if the cover part is a cylindrical projection arranged on the inside of the closure lid, which engages detachably or frictionally or frictionally in the inlet end of the outlet pipe located in the closed position outside the canister. The connection between the closure lid or lid part and outlet pipe allows the lifting of the outlet pipe and the desired ventilation of the canister. The rotationally symmetrical structure and its concentricity favor that the cover part and the inlet end of the outlet pipe can be brought into engagement with each other. When the closure cap is being screwed in, the cylindrical cover part is pressed into the inlet end of the outlet tube and positively connected thereto. Here is the connection between the closure cap and outlet pipe solvable because the outlet pipe to empty the canister pulled out of the same and must be screwed with its inlet end to the outlet nozzle to get into the position of use.

A further embodiment of the invention may provide that the inlet end of the outlet tube tapers towards its inlet opening or is conical. When screwing the closure lid with the threaded part of the lid part is pressed into the inlet opening of the outlet pipe. In this case, the inlet end comprises the cover part and creates a frictional connection between the outlet pipe and the closure lid. A thus generated clamping fit between the cover part and the inlet end is defined so that the frictional connection is sufficient, on the one hand to lift the outlet pipe from its sealing position and to allow the venting of the canister and on the other hand to ensure easy release of the connection by completely unscrewing the closure cap.

Of particular importance for the canister according to the invention, it may be, if the outer diameter of the cover part in comparison to the inner diameter of the inlet opening is so large that between the cover part and the inlet opening a frictional connection with sufficient strength arises. The ratio of the diameters is important for the strength, but also for the solubility of the connection between the closure cap and spout. It should be noted that the (oversized) dimension of the outer diameter of the lid part is only so large that a pressing or pressing into the inlet opening by screwing the cap with the canister remains possible, but still the solubility of the compound by opening the canister is guaranteed.

It would also be conceivable for the cover part to be a projection arranged on the inside of the closure lid, which has an opening at the side facing the canister in the position of use and with this opening the inlet end of the outlet tube located in the closed position outside the canister, detachably or non-positively or frictionally engaged overlaps. Also, by overlapping the cover part via the inlet end of the outlet pipe, the outlet pipe can be lifted and the canister vented when loosening the closure lid.

It may be advantageous for the canister according to the invention and the non-positive connection between closure cap and outlet tube if the length of the axial engagement or engagement of the lid part in or beyond the inlet end of the outlet tube at least about one fifth, one quarter or one third of the outer diameter of the lid part measures. The described length of the on or over grip allows with great certainty that the outlet pipe can be lifted from its sealing seat, since even in the case in which the connection starts to come loose and the entry end gets in motion relative to the cover part, still a sufficiently large effective area for the frictional connection is available before the cover part can finally be detached from the outlet pipe.

It is also possible that the recess or groove is uncovered over its entire extent. Thus, the groove is not completely encapsulated or encased, but over its entire length on the outside of the outlet pipe lying open. This allows the pressure balance between the interior of the canister and the environment largely independent of Level of the canister happen. Nevertheless, it is conceivable to encase the groove, for example, in the area near the inlet opening, wherein it must be ensured that the venting by a brief lifting of the outlet pipe in the threaded part on the groove remains possible. For this purpose, the groove must be uncovered in the appropriate place, that is, at least have an opening to the interior of the canister.

It may be particularly advantageous for the canister according to the invention if at least two grooves or recesses are present on the outlet pipe, which extend as far into the interior of the outlet pipe in their depth that they have a common web-like wall. In this way, the cross section of the outlet pipe can be utilized for sufficient dimensioning of the recesses or grooves.

It is advantageous if the threaded part has in its interior a shoulder for dividing its internal thread with a smaller inner diameter than the inner diameter of the internal thread, said shoulder having radially aligned surfaces which are formed for receiving a sealing ring on each side. This paragraph is used with its radially aligned surfaces of the support of sealing rings, which are jammed by the screw of the threaded part with the outlet nozzle and by screwing the lid to the threaded portion and thus can act sealing. In addition, it is possible to limit the axial displacement of the outlet tube by means of the paragraph within the threaded portion.

In an expedient embodiment of the invention, the recess or groove in the direction of the inlet end of the Outlet pipe ends before the inlet end and between this end of the groove and the inlet end of the outlet pipe, a circumferential shoulder may be provided as an axial stop. The circumferential shoulder allows the sealing seat of the outlet pipe to one of the two sealing rings of the threaded part. By screwing the closure cap with the threaded part, the end face of the inner external thread of the closure cap comes into contact with the circumferential shoulder from above and causes the outlet tube to be pressed into the threaded part by further tightening the closure cap. The fully bolted cap presses the circumferential shoulder on the sealing ring in the threaded part, so that the canister is tight.

In addition, it is possible that at least two nose-shaped stops are mounted on the circumference of the outlet pipe in the direction of the outlet end of the outlet pipe spaced from the circumferential shoulder and in a plane parallel thereto. The nose-shaped stops limit the axial mobility of the outlet pipe so that it may be raised when loosening the lid, but can not be pulled out of the threaded portion, since the nose-shaped stops on the inner shoulder stuck in the threaded part. Thus, the outlet pipe is fixed captive in the threaded part and secured.

But it is also possible that the outlet pipe has a circumferential rib, which is mounted in the direction of the outlet end of the outlet pipe spaced from the circumferential shoulder and in a plane parallel thereto. In order to improve the axial fixation of the outlet pipe in the threaded part, the nose-shaped stops already described can also be replaced by a circumferential rib. After venting the canister by opening the closure lid and the associated lifting of the outlet pipe, the closure lid should detach from the outlet pipe, but the outlet pipe can not be completely pulled out of the nozzle or the threaded portion, so that the outlet pipe together with the threaded portion in the use position can be screwed onto the outlet of the canister. In order to enable the release and prevent withdrawal, the circumferential rib is designed as a stop ring, which can not be passed on the shoulder in the threaded portion and holds the outlet pipe in its position in the threaded portion.

An advantageous embodiment of the invention can provide that the circumferential rib is provided with one, two or three or more interruptions. Since a continuous rib could restrict the available vent cross-section that results between the spout and the threaded portion and / or the spout too much, the interruptions serve to increase the permeability of the circumferential rib for the vent. This can be a good compromise between the largest possible ventilation cross-section and a best possible axial fixation of the outlet pipe in the threaded part can be found.

Of particular importance for the canister according to the invention is when the threaded part has an internal thread both in its part facing the closure lid and in its part facing the canister. With the double internal thread, the threaded part can be screwed onto the canister with both ends.

It is useful then that the outlet nozzle a External thread that fits to the two internal threads of the threaded part. Thus, it is possible to screw the threaded part either with one of its two internal threads on the outlet nozzle of the canister and thereby, to fix the outlet pipe either in the use position or in transport position on or in the canister.

It may also be advantageous if the threaded portion has gripping aids or handles on its outer periphery. For the use of the canister, the outlet pipe must be pulled out of the canister and brought into its position of use. For this purpose, the threaded portion can be unscrewed with the outlet pipe from the outlet nozzle of the canister to be subsequently screwed back to the outlet pipe in the use position again. In order to be able to screw the threaded part on and off it is therefore advantageous to provide grips or gripping aids on the circumference of the threaded part.

A further embodiment of the invention may provide that the outlet pipe in a region between an end of the groove or recess near the outlet end and the outlet end of the outlet pipe has a bending region consisting of a corrugated, flexible tube section. Due to the increased flexibility of the discharge pipe in this bending region, the liquid, in particular the fuel, can be conveniently and safely removed from the canister in e.g. to be transferred to a tank neck.

It may also be useful if the recess or groove ends before the beginning of the bending area. A further embodiment of the canister according to the invention provides that the groove or recess is so long that it is at maximum extraction of the outlet pipe from the threaded portion still creates a connection between the interior of the canister and the environment. Thus, it can be prevented that the recess or groove completely remains in the threaded portion when opening and raising the closure lid and no connection with sufficient ventilation cross section is the contact between the environment and the interior of the canister available. Such a dimensioned groove or recess has the shortest possible for a functioning canister vent length.

In addition, it is conceivable that a thread clearance is provided between the inner external thread of the closure cap and the internal thread of the threaded part, in particular in not completely screwed state, so that the screwing of the two threads is permeable to gas. Once the cap is released and the spout has reached the vent position, the gas from the inside of the canister through this thread clearance between the cap and threaded portion to flow through into the environment.

Fig. 1

eine geschnittene Seitenansicht des erfindungsgemäßen Kanisters in verschlossenem Zustand mit dem Auslaufrohr in seinem Inneren,

Fig. 2

eine der Fig. 1 entsprechende geschnittene Seitenansicht des erfindungsgemäßen Kanisters mit dem bereits teilweise gelösten Verschlussdeckels und dem Auslaufrohr in Entlüftungsstellung,

Fig. 3

die in Fig. 1 mit A gekennzeichnete Einzelheit in vergrößerter Darstellung,

Fig. 4

die in Fig. 2 mit B gekennzeichnete Einzelheit in vergrößerter Darstellung,

Fig. 5

die in Fig.4 abgebildete Einzelheit in einer Schnittdarstellung entlang der Linie V-V,

Fig. 6

eine den Fig. 1 und 2 entsprechende Darstellung des Kanisters mit abgeschraubtem Verschlussdeckel sowie

Fig. 7

eine den Fig. 1, 2 und 6 entsprechende Darstellung des Kanisters mit dem Auslaufrohr in Gebrauchsstellung.

An embodiment of the invention will be described in more detail below with reference to the drawing. It shows in partly schematized representation:

Fig. 1

a sectional side view of the canister according to the invention in the closed state with the outlet pipe in its interior,

Fig. 2

one of the Fig. 1 corresponding sectional side view of the canister according to the invention with the already partially dissolved closure cap and the outlet pipe in venting position,

Fig. 3

in the Fig. 1 with A featured detail in an enlarged view,

Fig. 4

in the Fig. 2 with B marked detail in an enlarged view,

Fig. 5

in the Figure 4 shown detail in a sectional view along the line VV,

Fig. 6

a the Fig. 1 and 2 corresponding representation of the canister with unscrewed cap and

Fig. 7

a the Fig. 1, 2 and 6 corresponding representation of the canister with the outlet pipe in the use position.

A generally designated 1 canister according to the Fig. 1 and 2 an outlet nozzle 2 with an external thread 2a, screwed onto the external thread 2a of the outlet nozzle 2, there is a threaded part 3 with a two-part internal thread 3a and 3b and one of these two separating paragraph 3c. At its periphery, the threaded part has 3 handles 3d, which facilitate the screwing and unscrewing for the user of the canister 1. In the interior 1a of the canister 1, the fuel or the fuel level can be seen 1b.

Closed is the canister 1 with a closure lid 4, the internal external thread 4a in the internal thread 3a of the threaded part 3 fits and engages. The closure lid 4 also has handles 4c on its circumference.

According to the Fig.1 to Fig.6 stuck when not in use of the canister 1, an outlet pipe 5 in the threaded part 3 and extends into the interior of the canister 1a 1 inside.

The outlet pipe 5 has at the end located in the interior 1a of the canister 1 its outlet end 6 with associated outlet opening 6a and at its opposite end its inlet end 7, also with associated inlet opening 7a. It is easy to see that the outlet end 6 and the outlet opening 6a is in this closed position in the fuel or under the fuel level 1b.

The Fig.1 and Fig.2 differ only in the position of the closure lid 4 and the outlet pipe. 5 Fig.1 represents the tightly closed canister 1, Fig.2 shows the closure cap 4 and the outlet pipe 5 in the venting position.

According to Fig.1 and the cross section Figure 5 the outlet pipe 5 in a region between the outlet end 6 and the inlet end 7 two grooves 8, which have a common web-like wall 8a. These grooves 8 are limited on the outlet end 6 near side by a flexible bending portion 9 of a corrugated pipe and on the inlet end 7 side facing by a circumferential uninterrupted pipe section 10 with the same diameter as the outlet pipe 5. Towards the inlet end 7 of the pipe section 10 is in a circumferential shoulder 10 a larger diameter over.

The area near the exit end 6 is the mentioned flexible bending area 9, which in this embodiment is a corrugated tube and the use of the canister 1 e.g. to facilitate the filling of a non-illustrated filler neck.

In Figure 3 the detail A is off Fig.1 increases shown. It shows a cross section of the outlet 2 with the cap 4 and the outlet pipe 5 in sealing position on the canister 1. Good to see the two sealing rings 11 and 12, which are positioned on or under the paragraph 3c in the threaded part.

The sealing ring 11 seals the gap between the closure cap 4, its inner external thread 4a and the internal thread 3a of the threaded part 3 to the outside. This happens because the closure lid 4 engages with a rotationally symmetrical, to the external thread 4a concentrically located cover part 4b when screwing with the threaded part 3 in the inlet opening 7a of the inlet end 7 and the peripheral tube section 10 and the shoulder 10a against the shoulder 3c and the sealing ring 11th pressed.

In addition to the function as a sealing surface prevents this shoulder 10 a and that the outlet pipe 5 can slip completely through the outlet nozzle 2 in the interior 1 a of the canister 1. It therefore also acts as a position assurance for the outlet pipe 5 in the threaded part. 3

The entrance end 7 tapers according to the illustrations in Fig.1 to Fig.4 in the direction of the cover part 4b conical, which favors the positive connection between the cover part 4b and the inlet end 7, since the inlet end 7 of the outlet tube 5 due to the selected dimensions in the press fit on the peripheral surface of the cover part 4b.

In order to close the canister completely tight, the second sealing ring 12 is provided. As in Figure 3 easy to recognize, this is between an upper edge 2b of the outlet nozzle 2 and the paragraph 3c of the threaded part. By screwing the thread 3b with the external thread 2a of the outlet nozzle 2, this sealing ring 12 is clamped between the upper edge 2b of the outlet nozzle 2 and the paragraph 3c. As a result, it reliably seals the gap between the threaded part 3 and the outlet 2 there. Figure 3 shows, moreover, that in the closed position a connection via the grooves 8 between the interior 1a of the canister 1 and the environment is not possible, since the outlet pipe 5 with its continuous peripheral pipe section 10 and the shoulder 10a to stop on the shoulder 3c in the threaded part 3 is stuck.

In Figure 4 is the detail B off Fig.2 shown enlarged. It shows a cross section of the outlet 2 with the cap 4 and the outlet pipe 5 in the venting position on the canister. 1

In this illustration, the internal external thread 4a of the closure lid 4 is no longer screwed to the stop with the internal thread 3a of the threaded part 3. Since the closure lid 4 is frictionally connected with the outlet pipe 5 via a press fit between the inlet end 7 and the lid part 4b, the outlet pipe 5 is slightly raised when the closure lid 4 is loosened so that neither the pipe section 10 nor the peripheral shoulder 10a abuts against the sealing ring 11. Rather, the outlet pipe 5 is raised so far that a connection between the environment and the interior 1a of the canister 1 via the groove 8 past the sealing ring 11 is created for the vent.

The axial displaceability of the outlet pipe 5 in the threaded part 3 is limited by a circumferential rib 13 on the circumference of the outlet pipe 5 in cooperation with the paragraph 3c of the threaded part 3. Figure 5 shows the outlet pipe 5 in its maximum raised position in the threaded part 3, since the Rippe 13 already in paragraph 3c strikes.

The in Figure 5 illustrated section VV off Figure 4 illustrates the design of the two grooves 8. It can be seen that the grooves 8 are so deep that they in a common web-like wall 8a, which receives the stability of the outlet pipe 5 with the largest possible ventilation cross-section, found.

Figure 6 shows the canister 1 according to the invention with completely removed closure lid 4. Since the outlet pipe 5 were retained by the circumferential rib 13 and the paragraph 3c in the threaded part 3, the cover part 4b could be solved by further unscrewing the closure cover 4 from the press fit in the inlet end 7. In this illustration, the canister 1 is already completely vented.

The threaded part 3 can now be unscrewed from the outlet connection 2. In this case, the outlet pipe 5 is pulled out of the canister 1 out, since the threaded part 3 with its inner shoulder 3c can not be performed on the peripheral shoulder 10a of the outlet pipe 5 over, the outlet pipe 5 is thus connected captive with the threaded part 3.

In order to use the canister 1, the threaded part 3 is now screwed with its internal thread 3a on the external thread 2a of the outlet nozzle 2 and brought into position of use. So that during pouring any fuel on the outlet pipe 5 can pass through the threaded gap between internal thread 3a and the external thread 2a, the threaded part 3 is screwed onto the outlet pipe 2 so far that the sealing ring 11 between the paragraph 3c and the upper edge surface 2b of the outlet 2 is clamped sealing.

Figure 7 finally shows the canister 1 with the outlet pipe 5 in the use position on the outlet connection. 2

The generally designated 1 canister for liquid, in particular for fuel, has an outlet connection 2 with a screwed threaded part 3 and associated internal threads 3a, 3b and a closure cover 4 with an internal external thread 4a. For the pouring of the liquid, an outlet pipe 5 is provided which is permanently inserted in the threaded part 3. For transport and storage, the threaded part 3 can be screwed onto the outlet connection 2 of the canister 1 in such a way that the outlet pipe 5 is located in the interior 1a of the canister 1. By e.g. heat-related evaporation of the liquid can build up in the sealed canister 1, an overpressure, which can lead to the removal of the closure lid 4 unintentionally fluid through the outlet pipe 5 is pressed outward or even jet-like and bundled out through the outlet pipe 5 out accelerated. To prevent this, the outlet pipe 5 is equipped on its outside with at least one groove 8. In addition, since a mechanism is provided which connects the closure lid 4 temporarily with the outlet pipe 5, this is slightly raised upon removal of the closure lid 4, whereby a connection between the environment and the interior 1a of the canister 1 via the groove 8 and the thread clearance between the External thread 4a and the internal thread 3a is formed, via which the pressure in the canister 1 can degrade without promoting liquid to the outside.

Claims (23)

Canister (1) for liquid, in particular for fuel, having an outlet connection (2) having an external thread (2a) and an outlet end (6) and an outlet opening (6a) when not in use inside (1a) of the canister (1) Outlet pipe (5), which at its the outlet end (6) opposite the inlet end (7) and an associated inlet opening (7a) has a threaded part (3) with an internal thread (3a, 3b), both when not in use and in the position of use on the External thread (2 a) of the outlet nozzle (2) of the canister (1) fits and on which a closure cover (4) with an internal external thread (4a) is screwed when not in use in the closed position, characterized in that the outlet pipe (5) one at least over a Part of its extension and at least over part of its circumference up to a non-use in the closure cover (4) located portion extending recess or Groove (8), that the outlet pipe (5) in the closed position has a sealing seat on the outlet nozzle (2) of the canister (1) and that the outlet pipe (5) with the closure lid (4) is positively connected such that it passes through Opening the closure lid (4) from the sealing seat on the outlet nozzle (2) can be lifted. Canister according to claim 1, characterized in that the outlet pipe (5) at least two over a part of its extension up to a when not in use Sealing cover (4) located portion extending recesses or grooves (8). Canister according to claim 1 or 2, characterized in that the outlet pipe (5) in the closed position with a cover part (4b) on the closure lid (4) is non-positively connected. Canister according to one of claims 1 to 3, characterized in that the cover part (4) concentric to the rotationally symmetrical inlet opening (7a) of the inlet end (7) of the outlet nozzle (2) plug-in outlet pipe (5) and to the internal external thread (4a) of the closure lid (4). Canister according to one of claims 1 to 4, characterized in that the cover part (4b) is a on the inside of the closure lid (4) arranged cylindrical projection which in the closed position located outside of the canister inlet end (7) of the outlet pipe (5) releasably or non-positively or frictionally engages. Canister according to one of claims 1 to 5, characterized in that the inlet end (7) of the outlet pipe (5) tapers towards its inlet opening (7a) or is conical. Canister according to one of claims 1 to 6, characterized in that the outer diameter of the cover part (4b) in comparison to the inner diameter of the inlet opening (7a) is so large that between the cover part (4b) and inlet opening (7a) a non-positive connection with sufficient strength arises. Canister according to one of claims 1 to 7, characterized in that the cover part (4b) is a on the inside of the closure cover (4) arranged projection which has at the use position in the canister (1) side facing an opening and with this Opening via the in the closed position outside of the canister (1) located inlet end (7) of the outlet pipe (5) releasably or positively or frictionally engages over. Canister according to one of claims 1 to 8, characterized in that the length of the axial engagement or engagement of the cover part (4b) in or via the inlet end (7) of the outlet pipe (5) at least about one fifth, one quarter or one third the outer diameter of the lid part (4b) measures. Canister according to one of claims 1 to 9, characterized in that the recess or groove (8) is uncovered over its entire extent. Canister according to one of claims 1 to 10, characterized in that at least two grooves (8) or recesses on the outlet pipe (5) are present, which extend in depth to the inside of the outlet pipe (5) that they have a common web-like wall (8a). Canister according to one of claims 1 to 11, characterized in that the threaded part (3) in its interior a shoulder (3c) for dividing the Internal thread (3a, 3b) having a smaller inner diameter than the inner diameter of the internal thread (3a, 3b), said shoulder (3c) has radially aligned surfaces which are formed for receiving a respective sealing ring (11,12) on each side. Canister according to one of claims 1 to 12, characterized in that the recess or groove (8) ends in the direction of the inlet end (7) of the outlet pipe (5) before the inlet end (7) itself and that between this end of the groove (8) and the inlet end (7) of the outlet pipe (5) has a circumferential shoulder (10a) is provided as an axial stop. Canister according to one of claims 1 to 13, characterized in that at least two nose-shaped stops on the circumference of the outlet pipe (5) in the direction of the outlet end (6) of the outlet pipe (5) spaced from the peripheral shoulder (10 a) and in a plane parallel to these are attached. Canister according to one of claims 1 to 14, characterized in that the outlet pipe (5) has a circumferential rib (13) which in the direction of the outlet end (6) of the outlet pipe (5) spaced from the peripheral shoulder (10 a) and in a Plane parallel to this is attached. Canister according to one of claims 1 to 15, characterized in that the circumferential rib (13) is provided with one, two or three or more interruptions. Canister according to one of claims 1 to 16, characterized in that the threaded part (3) both in its the closure cover (4) facing part and in its the canister (1) facing part each having an internal thread (3a, 3b). Canister according to one of claims 1 to 17, characterized in that the outlet nozzle (2) has an external thread (2a) which fits to the two internal threads (3a, 3b) of the threaded part (3). Canister according to one of claims 1 to 18, characterized in that the threaded part (3) on its outer periphery gripping aids or handles (3d). Canister according to one of claims 1 to 19, characterized in that the outlet pipe (5) in a region between the outlet end (6) near the end of the groove (8) or recess and the outlet end (6) of the outlet pipe (5) at least one Bending region (9), which consists of a corrugated, flexible pipe section. Canister according to one of claims 1 to 20, characterized in that the recess or groove (8) ends before the beginning of the bending region (9). Canister according to one of claims 1 to 21, characterized in that the groove (8) or recess is so long that at maximum extension of the outlet pipe (5) from the threaded portion (3) still a connection between the interior (1 a) Canister (1) and the environment manufactures. Canister according to one of claims 1 to 22, characterized in that between the inner external thread (4a) of the closure lid (4) and the internal thread (3a) of the threaded part (3), in particular in not completely screwed state, a thread play is provided, so the screw connection of the two threads is permeable to gas.

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