EP0863386A1 - Container closure cap with metering appliance - Google Patents

Abstract

The lid has a cap part (1) which can be fastened to a container in order to seal an outlet opening, and which has a closure element (13) which can be moved between positions which open and close a channel opening (10). The cap part has a chamber (19) which is connected to the channel opening, and which can be closed by a moving lid part (20). The chamber has a part volume (A) which corresponds to a defined part of the container volume, and the motion of the lid part between a position in which it closes the chamber from the external surroundings, and a position in which the interior of the chamber is connected to the latter, is linked to the motion of the closure element. The latter is moved between open and closed positions so that it opens the connection between the channel and outlet openings when the lid is closed, and vice-versa.

Description

The invention relates to a container closure Dosing device.

The object of the invention is an easy to use To create a container closure with a metering device with which a certain partial volume on one in a container amount of medium stored, e.g. a liquid or powder detergent for one use can be provided in a reproducible manner. In particular, the container closure should have no essential Modifications to existing containers can be attached and without further ado on the consistency or other nature different agents to be dosed as well different dosing quantities can be coordinated.

This object is achieved by the features of Claim 1 solved. All components of the Container closure can be done economically Injection molding of suitable plastic materials and be put together. The container closure can be in conventionally on the neck of a container screwed or bounced. Here are on Basically no neck for this purpose Modifications required, i.e. conventional Container closures can be easily by a Closure of the type according to the invention can be replaced. As in known container closures, the lid part of the Dosing cap are completely removed from the inner part, which makes handling easier. Also subject to This closes no restrictions on the Size and configuration of the dosing chamber so that the Closure slightly different application conditions can be customized. With regard to further refinements of the Invention is referred to the claims.

Fig. 1 in längsgeschnittener Ansicht einen Behälterverschluss mit Dosiereinrichtung gemäss einer ersten Ausführungsform der Erfindung in Verbindung mit einem fragmentarisch dargestellten Behälter in einer Betriebsstellung zum Dosieren eines Teilvolumens des Behälterinhaltes,

Fig. 2 in einer Ansicht ähnlich Fig. 1 den Behälterverschluss in einer Betriebsstellung zur Abgabe des zugemessenen Teilvolumens,

Fig. 3 in längsgeschnittener Ansicht ähnlich Fig. 1 einen Behälterverschluss mit Dosiereinrichtung gemäss einer zweiten Ausführungsform, und

Fig. 4 in fragmentarischer, längsgeschnittener Ansicht den Behälterverschluss nach Fig. 3 in einer Betriebsstellung kurz vor Abgabe eines in der Betriebsstellung nach Fig. 3 dosierten Teilvolumens.

The invention is explained in more detail below using an embodiment and the drawing. Show it:

1 is a longitudinal sectional view of a container closure with dosing device according to a first embodiment of the invention in connection with a fragmentary container in an operating position for dosing a partial volume of the container contents,

2 in a view similar to FIG. 1, the container closure in an operating position for dispensing the metered partial volume,

Fig. 3 in longitudinal section similar to Fig. 1, a container closure with metering device according to a second embodiment, and

4 in a fragmentary, longitudinally sectional view, the container closure according to FIG. 3 in an operating position shortly before delivery of a partial volume metered in the operating position according to FIG. 3.

The notes refer to the description below "above" and "below", "inside" and "outside" to those in the Positions shown.

As shown in the drawing, the Container closure with dosing device according to the first Embodiment of the invention generally with 1 designated inner part, which on the neck 4 of a container 2nd is suitably attached to one by the To close container neck 4 defined outlet opening. Although a screw connection could also be provided, is a rear grip connection between the inner part 1 and Container neck 4 preferred, as this causes the inner part 1 to pass through Bouncing can be attached to the container neck 4. To this Purpose is on the neck 4 in a known manner after molded collar 8 on the outside, which from one to inside of an inner peripheral wall 5 of the inner part 1 projecting collar 7 can be accessed. The The peripheral wall 5 of the inner part 1 can be designed that the container neck 4 in the assembled position of the Inner part 3 is essentially accommodated therein.

From the inside of the outlet opening of the Container neck 4 spanning end wall 9 of the inner part 1 protrudes axially downwards from a sealing cone 11, which seals in engages the container neck 4 and in on its inner circumference a suitable axial distance from the end wall 9 one after inside projecting ring collar 12. In the area of the end wall 9, which is surrounded by the sealing cone 11, is one Passage passage 10 is provided.

One accommodated in the sealing cone 11 so as to move up and down Closing element 13 has a sealing cone on its upper side 14 on the dimensions of the passage 10th is adjusted so that it seals in the passage 10 can intervene to close them, as shown in Fig. 2 is shown. The closing element 13 is circumferential, e.g. by means of one provided on its outer circumference Sealing lip 16 in sealing engagement with the inner Circumferential surface of the sealing cone 11.

The axial movement of the closing element 13 relative to the Sealing cone 11 is one end by the engagement of the Sealing lip 16 with the collar 12 and other ends through Contact of the closing element 12 on the underside of the end wall 9 of the inner part 1 limited. The dimensions of the collar 12 and the sealing lip 16 are coordinated so that the closing element 13 from the outside into the sealing cone 11 surrounding area can be inserted with moderate force and then in the sealing cone 11 against sliding out through the Ring collar 12 is prevented. It also acts between the Sealing lip 16 and the sealing cone 11 a low friction force, which hold the sealing lip 16 in their respective position want.

Axially protrudes from the top of the closing element 13 Above a coupling flange 17, which is in the form of a continuous peripheral flange or a variety circumferentially distributed flange segments can be formed and carries a collar 18, which is from the inner The peripheral surface of the flange 17 projects inwards.

Openings 15 are provided in the closing element 13 depending on the relative position of the closing element 13 for Sealing cone 11 a connection between the interior of the container and create a chamber 19 which defines in the inner part 1 or this connection is broken.

The chamber 19 is circumferential by a tubular one Limited section 5 'of the peripheral wall 5 of the inner part 1, that from the lower end of the container neck 4 receiving inner wall area 5 at a radial distance from it upwards extends so that the inner part 1 approximately in cross section the configuration of a bowl with an inward curved Ground. The chamber 19 is dimensioned so that it is a Can accommodate subset A of the container contents.

The outer circumference of the tubular wall section 5 'is a Screw thread 23 is provided, which with a screw thread 22 can cooperate on a cover part 20 to the cover part 20 to position on the inner part 1 and thereby the chamber 19th to be sealed off from the outside, as in Fig. 1 is shown. From the inside of the cover part 20 a tubular stamp part 24 protrudes downward from the or carries a collar 25 near its free lower end. The dimensions of the collar 25 are based on the dimensions of the collar 18 of the coupling flange 17 so matched that both ring frets 18, 25 have an interdependent relationship can step with each other if the cover part 20 according to FIG. 1 is screwed onto the inner part 1 to the axial Movement of the cover part 20 with that of the closing element 11 to link.

The container decision as described above with Dosing device works as follows. At on the Container neck 4 bounced or in any other way attached inner part 1, the cover part 20 screwed on, with the Stamp part 24 in the coupling flange 17 of the Closing element 13 and the ring collars 18, 25th enter into an underlying relationship and then the Movement of the lid part 20 is the same Closing element 13 has the consequence. The axial dimension of the Stamp part 24 is such that at least in the firm screwed position of the cover part 20 of the sealing cone 14 of the closing element 13 out of engagement with the Passage passage 10 is moved in the inner part 1, so that a Connection between the inside of the container via the Openings 15 in the closing element 13 and the Passage 10 in the inner part 1 with the through Cover part 20 to the outside closed chamber 19 is made.

If in this operating position shown in Fig. 1 Tray 2 rotated to a position where its contents are in the chamber 19 can flow as indicated by the arrows in Fig. 1 is indicated, the chamber 19 is filled with the medium stored in container 2. If the container 2 with filled chamber 19 closed by the cover part 20 then again in the upright position shown in Fig. 1 turned back, part of the in the chamber 19th located medium, which is above the Passage passage 10 has accumulated in the chamber 19 back flow into the interior of the container 2 because the closing element 13 through the cover part 20 in which the passage passage 10 releasing position is held. In contrast, in one annular chamber region 25, which through the peripheral wall 5th and a coaxial adjacent area of the Wall section 5 'of the inner part 1 is formed and itself extends below the radial plane in which the Passage passage 10 is, a partial volume A of the medium in the Retained inner part 1.

Under these circumstances, the cover part 20 is covered by the inner part 1 unscrewed, so at an initial part of the axial Unscrewing the closing element 13 in the direction of Passage passage 19 moves, in the course of this movement the sealing cone 14 of the closing element 13 in the Passage passage 10 engages so that it is closed becomes. Then the closing element 13 is on another joint movement prevented with the cover part 20, so that the continued unscrewing movement of the cover part 20 the coupling connection with the locking element 13 a exerts axial force that overcome the coupling connection can, so that the cover part 20, as shown in FIG. 2 is free of the closing element 13 and the chamber 19 exposed to the outside environment.

The container 2 is now from the upright into a on the one hand, the downward pressure acts of the medium in the container 2 to the closing element 13 in order to keep it in the closed position, and can on the other hand, the partial volume stored in chamber area 25 A of the medium to be released to the outside as done by the arrow is shown in Fig. 2. This partial volume A is like this dimensioned that there is an amount of medium to be dosed corresponds to that provided for a usage operation shall be. Once the container 2 is upright again Turned back position and the cover part 20 on the Inner part 1 has been screwed on process described above can be repeated.

In a modification of the embodiment described above the invention could be the cover part instead of by means of a Screw connection in another way, e.g. through with frictional hold or by means of a connection according to Art a bayonet catch, removably attached to the inner part be. All ring bundles of the above Embodiment could be by widely distributed Rear cams to be replaced.

The second embodiment shown in FIGS Invention differs from the previous one described essentially by a modified Training of the locking element and its linkage with the lid part. Parts that match those of the first Embodiment functionally correspond to the following not explained again. The related reference numerals are omitted in Figs. 3 and 4.

The modified locking member 130 of the second Embodiment has a substantially tubular shape elongated base body 131 with an upper open and a lower closed axial end. On the inner circumference of the Base body 131 is formed with a screw thread 132. The The pitch of the screw thread 132 is opposite to that the cooperating screw threads 122, 123 on the inside or Cover part 101, 120.

The closing element 130 is non-rotatable, but axially movable in an axially elongated sealing cone 111 of the inner part 101 added. This can be done on the outer circumference of the base body 131 a pair of diametrically opposed axial ribs 133 be formed, which in complementary axial grooves 134 am engage the inner circumference of the sealing cone 111. It could however, other anti-rotation means can also be provided.

The closure member 130 has near its upper axial end a diameter extension 135 that seals into one engage adjacent peripheral wall region of the sealing cone 111 can, if the closing element 130 in the in FIG. 3 shown closing position. This position can be limited by a stop on the closing element 130 molded ring flange 136 in contact with a shoulder or End surface on the inner part 101 can occur, as shown in Fig. 4 is shown.

Protrudes from the end wall of the inner part 120 similar to that of the first embodiment, a stamp element 140 axially after from the bottom, a screw thread 141 on the outer circumference wearing. The screw thread 141 is complementary to Screw thread 132 of the locking element 130 is formed and can cooperate with this to an axial movement of the To effect closing element 130 relative to sealing cone 111, if the cover part 120 on the inner part 101 or is unscrewed. Because of the opposite slope of the interacting screw threads 122, 123 on the one hand or 132, 141 on the other hand causes axial movement of the Cover part 120 in one direction an axial movement of the Locking members 130 in the opposite direction. A Screwing movement of the inner part 120 in the unscrewing direction in The closing element therefore relates to the inner part 101 130 in the release position shown in Fig. 3, in which the Container contents along the closing element 130 in the Dosing chamber 119 can flow. A screwing motion of the Inner part 120 in the opposite or unscrewing direction on the other hand moves the closing element 130 back into one Connection between the inside of the container and the dosing chamber 119 closing position according to FIG. 4. In this After removing the cover part 120, the position in the Dosing chamber 119 accumulated partial volume A is output will. Moreover, with regard to other aspects of the second embodiment of the invention to the relevant Explanations to the first embodiment are made.

A common feature of both embodiments is that Possibility of removing the lid part from the inner part and the independent link of the lid part with the Closing element when the former is placed on the inner part becomes. The term "removal" also includes folding away the Cover part of the inner part, if the former on the latter is articulated. In this case the coupling means between cover part and closing element analogous to the first Embodiment of the invention may be formed.

Claims (7)

Container closure with dosing device, consisting of an inner part (1, 101) which can be fastened to a container, and one on the inner part between one a passage passage (10,110) releasing and a closing position Movable locking element (13, 130), the Inner part one with the passage passage (10,110) in Connected, by a removable from the inner part Cover part (20, 120) in relation to the outside environment lockable chamber (19, 119) with a partial volume (A) corresponding to a certain part of the container volume has, wherein between the cover part and Closing element in the event of an axial approach of these parts in Complementary complementary coupling agents (18,25; 132,141) are provided, so that the closing element during a portion of the movement of the lid member between one the chamber facing the outside closing and an exposed position with the Cover part linked and in the exposed position of the Lid part is separated from this, the Passage passage in the closing position of the Lid part released and in the exposed position of the Lid part is locked. Container closure with dosing device according to claim 1, characterized in that the cover part (20, 120) the inner part (1,101) can be screwed. Container closure with dosing device after Claims 1 or 2, characterized in that from Cover part (20, 120) with the closing element (13, 130) detachable stamp element (24, 140) protrudes. Container closure with dosing device according to a of the preceding claims, characterized in that the closing element (13, 130) circumferentially sealing in Inner part (1.101) is frictionally received. Container closure with dosing device according to a of the preceding claims, characterized in that the cover part (20) and the closing element (13) latching are interlinkable. Container closure with dosing device according to a of claims 1 to 4, characterized in that the Cover part (120) and the closing element (130) by screw are interlinkable. Container closure with dosing device according to claim 6, characterized in that the lid and inner part (101, 120) can be brought into screw engagement with one another, and that the gradients of the interacting Screw thread pairs (122, 123; 132, 141) between the Lid and inner part on the one hand and the lid part and Closing element (130) on the other hand are opposite.

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