EP1792657A1 - Container with lid - Google Patents

Abstract

The tubular vessel (1) includes an opening (5) at one end and a base at the other. On the internal wall (8) there is a holding zone. An introduction region (9) intervenes between opening and holding zone. The cover (14) has an internal stopper (19) for insertion into the vessel, where it forms a seal against a seat on the inner wall. A sliding ring (20) and a holding ring are situated on the periphery of the stopper. Relative to the holding zone, the sliding ring has a lower coefficient of friction than the holding region. It slides in and seats on the holding region, in the sealing position of the holding ring. The two rings have about the same diameter. The introduction region gradually widens toward the opening. The sliding ring is behind the holding ring, seen in the direction of insertion (E). The rings enter a part of the introduction region having increased diameter, when seated. Further geometrical detail of the vessel is provided. The sliding ring and/or introduction region are lubricated or themselves have a low coefficient of friction, facilitating introduction. Fluorinated material, e.g. polyvinylidene difluoride (PVDF) and/or polyethylene are employed. They are in different colors than the rest. The holding region is polypropylene and/or the holding ring is polypropylene. A solid hinge joins the cover to the vessel.

Description

The invention relates to a lid container made of elastic plastic for laboratory use.

Lidded vessels of the aforementioned type typically have a capacity of a few tens of milliliters or a few milliliters or less than one milliliter.

A known lidded vessel comprises a vessel and a lid with a lid bottom having on one side a plug with a sealing bead on the periphery. The lid is inserted with the hollow cylinder like a plug into the vessel opening in order to seal with the sealing bead on the inner wall of the vessel ( DE-A-19645892 ).

In the known lidding vessels, the closing force for closing the lid is high. This is due to the fact that the sealing bead must be pressed with a high surface pressure against the inner wall of the vessel, so that the lid vessel securely seals. This is particularly the case with respect to the use of the lidded vessel in applications involving heating of samples in the vessel. For example, are known applications in which the lidded vessel must be vapor-tight and the lid when heating the lidded vessel and a sample contained therein in boiling water must not jump. Furthermore, applications are known in which the cover is subjected to multiple heating by repeated heating, for example in the PCR.

The manual application of a high closing force loads the user and is distracting from the user, especially when a large number of lidded vessels must be closed, which is the case in many applications.

Furthermore, there are lidded vessels in which the surface is modified so that less proteins or DNA adhere to the vessel wall or to achieve low retention effects. This reduces partly unwanted friction rates. One possibility of this surface modification is the coating of the lidded container or the addition of additive into the plastic from which the lidded container is made. Due to the reduced friction, the lids of the vessels can open independently in a hot water bath.

Based on this, the object of the invention is to provide a lidded container in which the closing force for closing the lid is reduced and the lid seals securely in the container.

The object is achieved by a lid vessel with the features of claim 1. Advantageous embodiments of the lidded vessel are specified in the subclaims.

• ein röhrenförmiges Gefäß, das einenends einen Gefäßboden, anderenends eine Gefäßöffnung, an der Innenwand des Gefäßes einen Haltebereich und einen Einführbereich zwischen Gefäßöffnung und Haltebereich hat,
• einen Deckel, der einen Deckelboden und auf einer Seite des Deckelbodens mindestens einen Stopfen hat, der durch die Gefäßöffnung in eine Dichtposition im Gefäß einsetzbar ist, in der ein Dichtbereich des Stopfens auf einem Dichtsitz an der Innenwand des Gefäßes aufsitzt, und
• einen Gleitring und einen Haltering am Umfang des Stopfens, wobei der Gleitring bezüglich des Einführbereichs eine geringere Reibungszahl als der Haltering gegenüber dem Haltebereich hat und beim Einsetzen über den Einführbereich gleitet und in Dichtposition der Haltering auf dem Haltebereich aufsitzt.

The lidded container made of elastic plastic for laboratory use has

• a tubular vessel having at one end a vessel bottom, at the other a vessel opening, at the inner wall of the vessel a holding area and an insertion area between vessel opening and holding area,
• a lid having a lid bottom and on one side of the lid bottom at least one plug which is insertable through the vessel opening in a sealing position in the vessel, in which a sealing area of the plug is seated on a sealing seat on the inner wall of the vessel, and
• a sliding ring and a retaining ring on the circumference of the plug, wherein the sliding ring with respect to the insertion has a lower coefficient of friction than the retaining ring relative to the holding portion and slides during insertion over the insertion and seated in sealing position of the retaining ring on the holding portion.

When closing the lid vessel slides first of the sliding ring on the insertion, the force required for this purpose due to the relatively low coefficient of friction (also called "friction coefficient") of the sliding ring is significantly reduced with respect to the insertion. Only at the end of the closing process, the retaining ring sits on the holding area. Although the effort increases in principle a bit, but this burdened the user at most slightly, because a substantial part of the work for the insertion of the lid is already provided in the vessel. In addition, the sliding ring when penetrating into the insertion area, the vessel slightly widen, so that the retaining ring can be relatively easily pressed into the holding area. When the retaining ring on the Holding area is seated, due to the high coefficient of friction of the retaining ring with respect to the holding area a secure closure of the lid in the vessel and a secure seal achieved, which can withstand stress by heating the vessel in the boiling water bath. Incidentally, the handling of the lidded vessel does not differ from that of the conventional lidded vessel. The size does not need to be increased. Compared to the known lidded vessel, however, it has the advantage of easier handling. In addition, a chemical-resistant design is possible. Also, the opening of the lid is more user-friendly in the lidded container, because after the breakaway of the retaining ring from the holding area of the slide ring can be easily pulled out of the insertion area. In addition, the opening force can be reduced due to tempering or storage (eg when using polypropylene for retaining ring and holding area).

The slip ring and the retaining ring can in principle have different diameters. According to one embodiment, the sliding ring and the retaining ring have approximately the same diameter. As a result, a successive sliding of the slide ring over the insertion area and placing the retaining ring on the holding area is favored.

According to one embodiment, the insertion region is gradually widened towards the vessel opening. As a result, an impressions of the slide ring in the insertion is promoted with gradual increase in the pressing force and uniform centering of the slide ring. If, according to a further embodiment, the sliding ring in the insertion behind the Retaining ring is arranged so that the seal ring is immersed in front of the retaining ring in the insertion, and the seal ring has approximately the same diameter as the retaining ring, slides during insertion only the slip ring on the insertion and not the retaining ring. As a result, the force required to close the lid is particularly low.

According to one embodiment, the sliding ring and the retaining ring in sealing position at least partially immerse in a receiving portion of the vessel with an inner diameter which is greater than the adjacent inner diameter of the insertion. In the transition region between the insertion region and the receiving section, the retaining ring or sliding ring can additionally be supported axially, whereby an additional securing or snap-fastening of the cover to the vessel is achieved.

According to a further embodiment, an undercut of the inner wall of the vessel is present between receiving section and insertion region. In this embodiment, the receiving portion, for example, cylindrical or conical. In this case, the retaining ring or sliding ring in particular rest against the undercut to schnnappen the lid with the vessel.

According to a further embodiment, the receiving portion is gradually widened away from the insertion area. When the sliding ring is disposed in the insertion direction behind the retaining ring, it first enters the extended receiving portion, so that the pressing force on the sliding ring is less than the pressing force on the retaining ring and the retaining ring is held securely.

In this embodiment, the receiving portion of the adjacent diameter of the insertion range emanate. However, it is also possible for the receiving section, which gradually widens away from the insertion area, to start from an undercut delimiting the insertion area in the rear in the direction of insertion.

According to one embodiment, the sliding ring and / or the retaining ring projects radially from the cylinder. Sliding ring and / or retaining ring are formed here as a circumferential bead on the cylinder. As a result, a defined contact pressure of the sliding ring on the insertion area and the retaining ring on the holding area is favored.

Slip ring and retaining ring are e.g. spaced from each other, or arranged directly adjacent to each other on the cylinder.

According to one embodiment, the plug is a cylinder or a cone.

In principle, it is possible to carry out the plug as a full stopper (e.g., solid cylinder). In one embodiment, the plug is a hollow plug (e.g., hollow cylinder). This promotes a radial elastic deformation of the seal ring and / or retaining ring, so that defined contact forces can be better maintained.

As already explained with reference to embodiments of the invention, it can be ensured by suitable design and coordination of the dimensions of insertion region, sliding ring and retaining ring, that initially only the sliding ring slides over the insertion area and finally the retaining ring is seated on the holding area. According to a further embodiment, this is achieved in that the sliding ring is made of a material which relaxes and / or shrinks when the temperature increases and / or increases in pressure and / or moisture increase and / or the retaining ring consists of a when the temperature increases and / or increases in pressure and / or when the moisture increases larger volume engaging material. When the temperature and / or the pressure and / or the humidity increases in the application of the lidded vessel inside the vessel, the sliding ring contracts and / or the holding ring widens, so that the holding ring is pressed into the holding region. This embodiment can be combined with the described shaping and tuning of the dimensions for initial sliding of the slide ring on the insertion area and final placement of the retaining ring on the holding area.

According to a further embodiment, an initial sliding of the slide ring on the insertion and final placement of the retaining ring on the holding area favors that the hollow plug in sealing position abuts the front end against an axial stop of the inner wall of the vessel and the retaining ring axially compressible by further pressing the lid and radially until the sealing contact with the holding area ausstülpbarer side of the hollow plug is. Preferably, the laterally ausstülpbare region of the hollow plug has a reduced wall thickness or is carried out like a film, so that it is laterally ausstülpbar under axial compression of the hollow plug This configuration can be combined with one of the aforementioned embodiments, the initial sliding of the Encourage sliding ring on the insertion and final placement of the retaining ring on the holding area.

According to one embodiment, the sliding ring and / or the insertion area carries a lubricant which reduces the friction coefficient of the sliding ring with respect to the insertion area and / or the sliding ring and / or the insertion area has an outer layer of a material and / or consists entirely of a material. which reduces the friction coefficient of the slide ring with respect to the insertion area.

Various materials can be used to reduce the coefficient of friction of the slip ring or the insertion. According to one embodiment, the sliding ring or the insertion region carries a fluorinated lubricant and / or an outer layer of a fluorinated material and / or consists overall of a fluorinated material. The fluorinated material is e.g. PTFE.

According to another embodiment, the sliding ring and / or the insertion region carries a lubricant made of polyethylene and / or has an outer layer of polyethylene and / or consists entirely of polyethylene.

According to another embodiment, the sliding ring and / or the insertion region carries a lubricant of PVDF and / or has an outer layer of PVDF and / or consists entirely of PVDF.

Also for the lidded vessel is a variety of suitable materials into consideration. According to one embodiment, at least the holding area consists of Polypropylene and / or at least the retaining ring of the lid made of polypropylene. According to one embodiment, the vessel as a whole consists of polypropylene, wherein only the sliding ring and / or the insertion region is provided with a lubricant of another material and / or has an outer layer of a different material and / or consists entirely of a material other than polypropylene , Particularly advantageous is a lidded container made of polypropylene with a sliding ring and / or insertion of polyethylene. Polyethylene is a standard material with similar chemical resistance to polypropylene.

According to a further embodiment, the sliding ring and / or insertion region has a different color than the other parts of the vessel. In this way, the user can be informed that the lidded vessel requires a reduced closing force.

According to another embodiment, the vessel as a whole consists of a friction coefficient reducing material, wherein the retaining ring and / or the holding portion is provided with a coefficient of friction increasing means of a different material and / or has an outer layer of the other material and / or in total made of the other material. In this case, the vessel is, for example, one in which the surface is modified in order to adhere fewer proteins or DNA to the vessel wall or to achieve low retention effects, as described in the introduction. The associated reduction in the coefficient of friction is compensated by the increased coefficient of friction of the retaining ring and / or of the holding area. As a result, this lidded container is also reliably tight, especially when heated in a boiling water bath.

The sealing area of the plug and the sealing seat of the vessel may have different arrangements. According to one embodiment, the sealing area of the plug on the retaining ring and / or on the sliding ring and / or the sealing seat of the vessel is present at the end of the insertion area and / or in the receiving area and / or at the undercut. The retaining ring and / or sliding ring is / are thus used at the same time as a sealing ring. When the sealing seat is arranged at the end of the insertion area, there is e.g. a short cylindrical end area available. Particularly advantageous is the arrangement in the receiving area near the end of the insertion and / or at the undercut, if the retaining ring in this area is applied to the lid to the vessel to schnnappen.

The invention relates to embodiments in which a lid separated from the vessel can be inserted into the vessel opening. According to one embodiment, the lid is captively connected to the vessel via a film hinge.

According to a further embodiment, the lid has a laterally projecting beyond the vessel tongue, which facilitates a pressing of the lid into or out of the lid from the vessel opening.

According to one embodiment, the lidded vessel is produced in a multi-component injection molding process, wherein at least the sliding ring is injection-molded from a different plastic than the remaining parts of the lidding vessel.

For example, the sliding ring is made of polyethylene and the remaining parts of the lidded container are injection-molded from polypropylene.

According to one embodiment, the sliding ring is molded onto the vessel or the vessel is molded onto the sliding ring. The lidded vessel can be produced, for example, by inserting a vessel into an injection mold for spraying the slide ring and then injecting the slide ring or inserting the slide ring into an injection mold for spraying the vessel and then injecting the vessel.

According to another embodiment, the sliding ring is arranged in an annular groove or between projections on the circumference of the cylinder. As a result, the sliding ring is held captive on the lid. In this case, it is possible to subsequently snap the sliding ring onto a cylinder of the cover.

Fig. 1

ein Deckelgefäß in einer Perspektivansicht schräg von oben;

Fig. 2

dasselbe Deckelgefäß in einer Draufsicht;

Fig. 3

Gefäß desselben Deckelgefäßes in einem Längsschnitt;

Fig. 4

den Deckel und Gefäß beim Einsetzen des Zylinders in die Gefäßöffnung in einem Teilschnitt;

Fig. 5

den Deckel und Gefäß in Dichtposition in einem Teilschnitt;

Fig. 6

Deckel und Gefäß eines anderen Deckelgefäßes mit Dichtbereich am Gleitring in einem Teilschnitt;

Fig. 7

Deckel und Gefäß eines anderen Deckelgefäßes, bei dem der Haltering in Einführrichtung hinter dem Gleitring angeordnet ist und den Dichtbereich aufweist in einem Teilschnitt.

The invention will be explained in more detail with reference to the accompanying drawings of an embodiment. The drawings show:

Fig. 1

a lidded vessel in a perspective view obliquely from above;

Fig. 2

the same lidded vessel in a plan view;

Fig. 3

Vessel of the same lidded vessel in a longitudinal section;

Fig. 4

the lid and vessel during insertion of the cylinder into the vessel opening in a partial section;

Fig. 5

the lid and vessel in sealing position in a partial section;

Fig. 6

Cover and vessel of another lidded vessel with sealing area on the sliding ring in a partial section;

Fig. 7

Lid and vessel of another lidded vessel in which the retaining ring is arranged in the insertion direction behind the slide ring and has the sealing area in a partial section.

The lidded vessel has a vessel 1 with a bowl-shaped vessel bottom 2, an adjoining cone section 3 and a cylinder section 4 adjoining thereto, which has a vessel opening 5 and a vessel flange 6 surrounding it. In the region of the vessel opening 5, the vessel 1 is stiffened by ribs 7 which sit below the vessel flange 6 on the jacket of the cylinder section 4.

The vessel 1 has on its inner wall 8 adjacent to the vessel opening 5 a conical insertion region 9, which gradually widens toward the vessel opening 5.

The insertion region 9 has a cylindrical end region 10 in the area of the smallest diameter. The insertion region 9 is delimited by an undercut 11. From the undercut 11 is a receiving area 12, which widens gradually towards the bottom of the vessel 2 conically.

The cone angle of the insertion 9 is about 10 °. The cone angle of the receiving area 12 is about 1 °.

Adjacent to the receiving region 12, a conical transition region 13 is present, which is in its diameter in the direction of the Vessel bottom 2 reduced. In the transition section 13, the wall thickness of the vessel 1 gradually increases. From the transition section 13 to the vessel bottom 2, the vessel 1 has a substantially constant wall thickness.

Further, the lidded vessel has a lid 14 having a lid bottom 15 which is in the form of two coincident isosceles trapezoids placed against each other at the baseline. The lid bottom 15 has a stabilizing edging 16 at the edge.

The vessel flange 6 is connected to the lid 14 via a hinge strap 17, which is foldable about a fold line 18.

The lid bottom 15 carries inside a hollow cylinder 19, which has a distance from the enclosure 16 and extends beyond this over the entire circumference. The hollow cylinder 19 has at the free end outside a circumferential sliding ring 20. The sliding ring 20 is provided to the end face of the hollow cylinder 19 out with a radius 21. In addition, he has a cylindrical ring portion 22nd

Adjacent to the sliding ring 20, a retaining ring 23 is provided which is farther away from the free end of the hollow cylinder 19. The retaining ring 23 has a further cylindrical ring portion 24 which has the same diameter as the cylindrical ring portion 22 of the seal ring 20 and adjacent thereto. On the other hand, the retaining ring 23 runs over a further radius 25 in the hollow cylinder 19.

The lidded container is molded in one piece in a two-component injection molding process from polypropylene and polyethylene. Only the sliding ring 20 is made of polyethylene, the remaining parts of the lidded vessel are made of polypropylene.

Polyethylene has a lower coefficient of friction than polypropylene compared to polypropylene.

To close the lidded container lid 14 is folded in the direction of insertion E about the fold line 18, so that the hollow cylinder 19 is immersed in the vessel opening 5. The following in the insertion direction E behind the retaining ring 23 arranged sliding ring 20 slides over the conical Einsetzbereich 9. The following retaining ring 23 does not come into contact with the Einsetzbereich 9. Because of the favorable friction coefficient of the polyethylene of the sliding ring 20 with respect to the polypropylene of the insertion 9 of this Required force relatively low (Fig. 4).

Accordingly, the force required for pushing the seal ring 20 over the end portion 10 is small. Finally, the sliding ring 20 is pushed over the undercut 11 into the receiving area 12, the retaining ring 23 being seated on the undercut 11 and the adjacent area of the receiving area 12. These form a holding region 26 of the vessel 1. The force required for this purpose is relatively small because of the small remaining sliding path and the already made by the slip ring 20 widening of the vessel 1. Characterized in that the retaining ring 23 comes to rest on the holding portion 26, the cover 14 with the vessel 1 locked. At the same time, the holding region 26 is a sealing seat 27, on which the retaining ring 23 seals with a sealing region 28. The retaining ring 23 is also a sealing ring.

In the locking position of the retaining ring 23 made of polypropylene sits on the receiving portion 12 and the undercut 11 made of polypropylene. Due to the high coefficient of friction of polypropylene with respect to polypropylene, the lid 14 is securely held in the vessel 1. The snapping effected by the bearing of the retaining ring 23 on the undercut 11 additionally secures the cover 14 in the vessel 1.

The embodiment of Fig. 6 differs from the embodiment of Figs. 1 to 5, characterized in that the sliding ring 20 on the circumference of the sealing region 28 which rests on the sealing seat 27 of the receiving portion 12. For this purpose, the receiving area 12 is tapered in the direction of the vessel bottom 2. The sliding ring 20 thus also forms a sealing ring.

The embodiment of Fig. 7 differs from the above-described characterized in that the retaining ring 23 is arranged in the insertion direction E behind the sliding ring 20. In this case, the retaining ring 23 on the sealing portion 28 which rests on the sealing seat 27 of the receiving portion 12. By planting the sealing area 28 on the sealing seat 27, the lid 14 is held in the vessel 1. In addition, a certain security of the lid in the vessel 1 by conditioning of the slide ring 20 takes place at the undercut 11.

Claims (27)

Lidded container made of elastic plastic for laboratory use with A tubular vessel (1) having at one end a vessel bottom (2), at the other a vessel opening (5), at the inner wall (8) of the vessel a holding area (26) and an insertion area (9) between vessel opening (5) and holding area ( 26), A lid (14) having a lid bottom (18) and on one side of the lid bottom (18) a plug (19) insertable through the container opening (5) in a sealing position in the vessel (1) Sealing region (28) of the plug (19) on a sealing seat (27) on the inner wall (8) of the vessel (1) is seated, and • a sliding ring (20) and a retaining ring (23) on the circumference of the plug (19), wherein the sliding ring (20) with respect to the insertion region (9) has a lower coefficient of friction than the retaining ring (23) with respect to the holding region (26) and Inserting over the insertion region (9) slides and in sealing position of the retaining ring (23) on the holding portion (26) is seated. A lidded container according to claim 1, wherein the sliding ring (20) has approximately the same diameter as the retaining ring (23). Lidded vessel according to claim 1 or 2, wherein the insertion area (9) is gradually widened towards the vessel opening (5). Lidded vessel according to claim 2 and 3, wherein the sliding ring (20) in the insertion direction (E) behind the retaining ring (23) is arranged. Lidded vessel according to one of claims 1 to 4, in which the sliding ring (20) and the retaining ring in sealing position at least partially immersed in a receiving portion (12) of the vessel (1) having an inner diameter which is greater than the adjacent inner diameter of the insertion region (9). is. Lidded vessel according to claim 5, in which an undercut (11) of the inner wall (8) of the vessel (1) is present between the receiving section (12) and the insertion region (9). A lidded vessel according to claim 5 or 6, wherein the receiving portion is gradually widened away from the insertion area (9). A lidded vessel according to any one of claims 1 to 7, wherein the sliding ring (20) and / or the retaining ring (23) projects radially from the plug (19). A lidded vessel according to any one of claims 1 to 8, wherein the plug (19) is a cylinder or cone. A lidded vessel according to any one of claims 1 to 9, wherein the plug (19) is a hollow plug. Lidded vessel according to one of claims 1 to 10, in which the sliding ring (20) is made of a material which relaxes and / or shrinks when the temperature increases and / or increases in pressure and / or when the moisture increases and / or in which the retaining ring (23) consists of a material Temperature increase and / or pressure increase and / or moisture increase is a larger volume-consuming material. Lidded vessel according to claim 10 or 11, in which the hollow stopper (19) rests in the sealing position on the front side against an axial abutment of the inner wall (8) of the vessel (1) and the retaining ring (23) into an axially compressible by further depression of the lid (14) and radially to the fixed clamping system on the holding portion (26) laterally ausstülpbarer area of the hollow cylinder (19). A lidded container according to claim 12, wherein the laterally evageable portion of the hollow plug (19) is an area of reduced wall thickness of the hollow plug (19). Lidded vessel according to one of claims 1 to 13, in which the sliding ring (20) and / or the insertion area (9) carries a lubricant which reduces the coefficient of friction of the sliding ring (20) with respect to the insertion area (9), and / or the sliding ring (10). 20) and / or the insertion area (9) an outer layer of a material and / or consists entirely of a material having a reduced coefficient of friction with respect to the insertion region (9) and / or with respect to the sliding ring (20). Lidded vessel according to one of claims 1 to 14, in which the sliding ring (20) and / or the insertion region (9) carries a fluorinated lubricant and / or has an outer layer of a fluorinated material and / or consists of a fluorinated material. Lidded vessel according to one of claims 1 to 15, in which the sliding ring (20) and / or the insertion region (9) carries a lubricant made of polyethylene and / or has an outer layer of polyethylene and / or consists entirely of polyethylene. Lidded vessel according to one of claims 1 to 16, in which the sliding ring (20) and / or the insertion region (9) carries a lubricant of PVDF and / or has an outer layer of PVDF and / or consists entirely of PVDF. Lidded vessel according to one of claims 1 to 17, in which the sliding ring (20) and / or the insertion area (9) has a different color than the remaining parts of the lidded vessel. Lid vessel according to one of claims 1 to 18, wherein at least the holding region (26) consists of polypropylene and / or in which at least the retaining ring (23) consists of polypropylene. A lidded container according to claim 19, which is made entirely of polypropylene, wherein the sliding ring (20) and / or the insertion region (9) is provided with a lubricant of a different material and / or has an outer layer of a different material and / or in total another material, the other material reducing the coefficient of friction. A lidded vessel according to any one of claims 1 to 13, wherein the vessel (1) as a whole consists of a friction coefficient reducing material, the retaining ring (23) and / or the holding area (26) being provided with a coefficient of friction increasing means of a different material is and / or an outer layer of a coefficient of friction increasing other material and / or in total consists of a friction coefficient increasing other material. Lidded vessel according to one of claims 1 to 21, wherein the sealing region (28) of the plug (19) on the retaining ring (23) and / or on the sliding ring (20) and / or in which the sealing seat (27) of the vessel (1) End of the insertion area (9) and / or in the receiving area (12) and / or on the undercut (11) is present. Lidded vessel according to one of claims 1 to 22, in which the lid (14) is connected to the vessel (1) via a film hinge (17). A lidded vessel according to any one of claims 1 to 23, wherein the lid (14) has a tongue extending laterally beyond the vessel (1). Lidded vessel according to one of claims 1 to 24, which is produced in a multi-component injection molding process, wherein at least the sliding ring (20) is injection-molded from a different plastic than the remaining parts of the lidded vessel. Lidded vessel according to one of claims 1 to 25, in which the sliding ring (20) is injection-molded onto the vessel (1) or in which the vessel (1) is injection-molded onto the sliding ring (20). Lidded vessel according to one of claims 1 to 26, wherein the sliding ring (20) is arranged in an annular groove on the circumference of the cylinder (19).

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