Container spout

Abstract

The invention relates to a pourer (1) of a container comprising a pouring nozzle (2) which forms a pouring channel and on the external thread (3) of which a covering cap (4) is screwed. A sealing stopper (6) which closes the pouring channel is guided non-rotatably and is vertically displaceable in the pouring channel of the pouring nozzle. The sealing stopper (6) is retained on the cap which is rotatable relative thereto, such that a screwing on of the cap leads to a lifting of the sealing stopper (6) in the pouring channel. The cap (4) has an upper opening in which the sealing stopper (6) lies with the upper end thereof. The upper end of the sealing stopper (6) has at least one tamper-evident part (7) which breaks off or breaks up when the cap is unscrewed relative to the non-rotatably retained sealing stopper.

Claims

1. A closable spout for a container comprising: a tube that extends along an upright axis, has an external thread, forms a passage, and is upwardly open; a cap screwed onto the thread and having an upper end formed with an upper opening; a stopper engageable downwardly through the opening to close the passage of the tube, and vertically axially movable in the passage by unscrewing of the cap; interfitting axially extending formations on the stopper and on the tube inhibiting the stopper from rotating in the tube; and a tamper-indicating part on an upper end of the stopper constructed and arranged so as to break, separate from the tube, or separate from each other when the cap is unscrewed from the stopper that is held by the formations.

2. The spout according to claim 1, further comprising: a film connected to the lower end of the stopper, closing the passage, and tearing when the stopper is raised.

3. The spout according to claim 2, wherein the stopper is closed with a lower wall on a lower end of the cylindrical side wall.

4. The spout according to claim 3, wherein at least an edge of the lower wall is attached to the film closing the passage.

5. The spout according claim 2, wherein the film is of plastic or aluminum.

6. The spout according to claim 5, wherein the film is a film laminate with an aluminum layer not in direct contact with the bottled product.

7. The spout according to claim 2, further comprising: a welded-on part unitary with the tube, the passage extending over a total height of the tube and of the welded-on part.

8. The spout according to claim 7, wherein the film is attached to a lower end of the welded-on part.

9. The spout according to claim 1, wherein the stopper has an upper end formed with a flange having a tamper-indicating widened portion set into an at least partially annular recess in which the flange fits at an inner upper edge of the cap.

10. The spout according to claim 1, wherein the tamper-indicating widened portion is partially annular in shape.

11. The spout according to claim 10, further comprising: a frangible bridge connecting the tamper-indicating widened portion to the flange of the stopper.

12. The spout according to claim 10, further comprising: at least one projecting formation on the cap and abutting against the tamper-indicating widened portion when the cap is unscrewed in order to break open and/or bend the tamper-indicating part.

13. The spout according to claim 1, wherein the stopper has a cylindrical side wall.

14. The spout according to claim 1, wherein the stopper is connected to the cap so that the cap cannot be separated therefrom and is removable as a cohesive part by the tube.

Description

BRIEF DESCRIPTION OF THE DRAWING

(1) An embodiment of the invention is illustrated in the drawings and described in greater detail below.

(2) FIG. 1 is a vertical axial section through the spout/closure,

(3) FIG. 2 is a section according to line II-II in FIG. 1 in a perspective diagram,

(4) FIG. 3 is a perspective view of the entire spout/closure.

SPECIFIC DESCRIPTION OF THE INVENTION

(5) A plastic spout 1 has a cylindrical pouring tube 2 that is integrally welded on a welded-on part 15 at its lower end whose exterior is formed like a small boat in that the two exterior sides of the welded-on part are outwardly convex and taper to a point at both ends. The welded-on part 15 is welded between the walls of a bag with these exterior sides.

(6) The pouring tube 2 forms an substantially cylindrical pouring passage 17 that extends over the entire length of the pouring connection and the welded-on part 15 and is inserted in a form-fitting manner into a substantially cylindrical sealing stopper 6. The sealing stopper 6 ends in an outwardly projecting flange and/or annular extension 13 at the top.

(7) A closure cap 4 is unscrewed from the pouring tube 2 from above. To do so, the pouring tube 2 has an external thread 3 fitting with an internal thread 5.

(8) The cap 4 is open at the top and thus forms an upper opening 8 with a partially annular coaxial recess 11 in which the widened portion or flange 13 fits complementarily. A coaxial inner ring 13 formed on an inner surface of the cap 4 engages underneath the widened portion 13 so that, when the cap 4 is unscrewed, it pulls the sealing stopper 6 upward. In doing so, a coaxial ring 19 projecting inward from an outer surface of the sealing stopper 6 engages the inside ring 18 from underneath on its lower face so that the sealing stopper 6 is held in the cap 4 and cannot be lost.

(9) The sealing stopper 6 is guided without rotation in the pouring passage 17 of the pouring tube 2 by axially parallel ridges 16 on the outside of the sealing stopper 6 engaging into complementary parallel grooves 20 of the pouring tube 2 and/or of the inner passage of the welded-on part 15d. Thus, when the cap 4 is pulled up, the sealing stopper 6 is also raised without rotating.

(10) The sealing stopper 6 extends to the lower end of the welded-on part 15, forming a lower wall 14 sealing the hollow stopper there. This lower end of the sealing stopper is connected to a film 9 that is attached to the lower end of the welded-on part to close the pouring passage 17. The film 9 tears when the sealing stopper is raised. The film 9 is preferably made of a film laminate with an aluminum layer that is in the middle or on back face of the laminate so that the aluminum layer cannot come into direct contact with the product bottled in the container.

(11) Instead of having an upper wall, the sealing cap 4 has the upper opening 8 into which the sealing stopper 6 is inserted at its upper end to close the opening. The upper end of the sealing stopper 6 here has at least one tamper-indicating part 7 that breaks off or breaks open when the cap 4 is unscrewed relative to the sealing stopper that is held against rotation. This tamper-indicating part is formed by a partial flange 7 of the sealing stopper 6 that is inserted into an annular or partly annular recess 11 in the upper inner edge of the cap 4.

(12) Since the flange 7 forming the tamper-indicating seal is connected to the flange 13 of the sealing stopper 6 by a bridge 12 that can be broken or torn. If the cap 4 is twisted relative to the widened portion 13 that is held against rotation, then a projection on the inside of the upper opening 8 of the cap abuts against the tamper-indicating widened portion 7, so that the widened portion 7 is bent to the extent that the bridge 12 breaks off or tears. Therefore, on the top side of the cap 4, one can see whether the spout has already been opened or is still unused.

(13) In an alternative embodiment (not shown here), the spout is not integrally welded on a welded-on part but instead is attached to a rigid plastic container, in particular a plastic bottle.