WO2003076292A1 - Dosing closure made of injection-molded plastic - Google Patents

Abstract

Disclosed is a dosing closure which is made of injection-molded plastic and is used for free-flowing media. Said dosing closure can be sealingly screwed or clicked onto a bottleneck and is provided with a spout (2) that is configured thereupon. Said spout (2) is pivotable from a lying, closed position, in which said spout (2) is fastened to the housing (1) of the closure by means of a snap lock, to a standing, open position. In addition to said snap lock, the spout (2) is also secured by a limb (9) which elastically presses against the mouth thereof in the lying, closed position. Said limb (9) is provided with a curved hump that engages into the mouth (10) of the spout (2). The limb (9) which elastically presses against the mouth of the lying spout (2) advantageously forms the load arm (13) of a rocker-type element (11) comprising a load arm (13) and a power arm (14). Said rocker-type element (11) is formed by one portion of the housing wall (1), the load arm (13) and power arm (14) consisting of parts of the housing wall (1), which are exposed by means of slots, while the pivoting axis (12) of the rocker-type element (11) is formed by a material bridge (12) on the housing wall.

Description

 Dosing closure made of injected plastic

This invention relates to a metering closure made of molded plastic for metered pouring of flowable media. These media can be liquids of all kinds, but especially oily liquids such as engine oil, polishing liquid for vehicle bodies and the like.

Such Dosierverschlüsse are known in various designs. A common closure consists of a closure housing, on which a spout is formed, which can be pivoted from a position lying in the upper housing part in a vertical, vertical position. In a variant, a film hinge-like pivoting hinge is formed for this purpose in the upper side of the housing around which the spout integrally formed thereon can be swung open. The spout forms in the lying position with its then upwardly projecting side part of the housing wall of the closure top. It is pivoted into a channel formed in the upper side of the housing, so that thus forms the upper side of the Dosierverschlusses an almost continuous plane with eingeschwenktem, lying spout. On the opposite side of the hinge on the spout an elastically deformable wall is formed, which sealingly connects the spout in its root area with the closure housing. If the spout is pivoted upward, this elastic wall jumps into a convex position, in which she holds and supports the sink in vertical, open position. When swinging down this support wall deforms and she jumps back into a concave position. The spout and the closure housing together form a snap closure, so that the spout snaps when swung down in the closure housing and is held in this lying, closed position. However, this snap closure is not shown and described in detail here, because such snap closures are well known. The elastically deformable wall around the root area of the spout curves in such a way that the spout is sealingly closed in the local area.

However, such metering closures still have two major deficits. First of all, they can be opened too easily, meaning that the spout can easily be swung open by a child's hand. Kids tend to open everything that opens up and put all kinds of bottles to drink. This poses a risk if the bottle contains dangerous substances that are not intended for oral use. Secondly, the spout of a dosing closure described remains free even in the down-pivoted, lying and closed position of the root area of the spout to the mouth. Therefore, air can enter the spout from outside and circulate in it, and depending on the type of liquid in the container or bottle, liquid spills in the spout harden and the spout may even clog up. If the bottle or container in a dusty area, such as in a workshop or on a construction site, so dirty the spout and the dirt is washed out at the next removal of liquid from the latter and is then included in this, which is undesirable.

It is therefore the object of the present invention to develop a dosing as described above in order to eliminate the identified deficiencies.

[0005] This object is achieved by a metering closure made of injected plastic for flowable media with a sealing on a bottleneck screwable or clickable closure housing and a molded thereon spout, which is pivoted from a horizontal, closed and held on the closure housing by means of snap closure position in a standing, open position, and which is characterized in that the spout in the lying, closed position in addition to the snap closure is secured by a leg elastically pushing against its mouth.

In the drawings, such a dosing of injection molded plastic for flowable media is shown in several views and it will be described in detail in the following description with reference to these drawings and its function will be explained.

It shows:

Figure 1: The dosing in a perspective view with pivoted, open spout on a tilted into the horizontal position pouring bottle;

FIG. 2 shows the metering closure according to FIG. 1 in a view obliquely from below;

Figure 3: The detail B of Figure 2 in an enlarged view;

Figure 4: The Dosierverschluss in a perspective view from the back above to obliquely down and forward;

Figure 5: The detail A of Figure 4 in an enlarged view.

In Figure 1 can be seen the metering mounted on a dashed line indicated bottle, which was pivoted here for pouring liquid in a horizontal position. The closure consists of a closure housing 1 with a cap which can be screwed or clicked onto a bottle neck, wherein a spout 2 is pivotally formed on the closure housing 1. The pivoting hinge 3 is formed by a film hinge, which is formed here by a part of the top of Dosierverschlusses. On the opposite side of this pivot hinge 3, an elastically deformable wall 5 is integrally formed on the root portion 4 of the spout 2, which connects the spout sealingly with the closure housing 1. In the embodiment shown, one side of the spout 2 is formed by a wall piece 6 of the upper side 7 of the closure housing 1. In the shown pivoted-up position of the spout 2, the wall 5 is curved convexly outwards and acts as a supporting wall, by holding or supporting the spout 2 in the pivoted-up position shown. If the spout 2 is pivoted down about the hinge axis 3 into the closure housing 1, then this wall 5 deforms, changing from the convex shape into a concave shape. Finally, the wall deforms until the spout 2 is completely lowered in such a way that it sealingly seals it in the root area. But it is elastically deformed, which means that upon renewed pivoting of the spout 2, the wall 5 springs back from this concave position in the convex shape and holds the spout 2 again in the open position. In the cap of the closure housing to be placed on a bottle neck, a rubber-elastic deformable seal can additionally be inserted, which, when the spout is pivoted down, fills the root area of the spout on all sides due to its deformability and closes in a sealing manner. The spout 2 forms in its mouth region together with the closure housing 1 a snap closure. The spout is received in the illustrated variant of the dosing of a formed by the closure housing channel 8, so that the wall piece 6 is flush with the top of the closure housing 1 and thus the spout 2 completely disappears in the closure housing 1. Because of the snap closure, not shown, he clicks in the depressed position on this channel 8. From the lowered position, he can only be solved with some effort from the Schappverschluss and swung open. In order to further complicate the opening of the closure and in particular to make childproof, so that children are able to open the dosing easily, serves as a central element of this dosing a resiliently against the mouth of the spout 2 pushing leg 9. This leg can have a projection which engages over the downwardly pivoted spout in the mouth region, or as shown here carry on its muzzle 10 of the spout 2 side facing a cambered hump, which engages in the mouth 10 of the spout. So to open the dosing or aufzuschwenken to the spout 2, on the one hand this leg 9 must be pulled or moved against an elastic spring force to pull out the cambered hump from the mouth 10, and on the other hand, the snap lock must be overcome at the same time. So there must be two simultaneous and coordinated manipulations, including both hands are necessary. It is very unlikely that opening a child will succeed. In order to pivot the leg 9 away from the mouth, it can be provided with a tab, by means of which it can be pulled away from the metering closure. In another preferred variant, which is shown here, forms the leg 9, the load arm 13 of a rocker 11. This is formed by the fact that it is excluded by slots from the closure wall, while a material bridge 12 is allowed to stand, which then serves as a hinge for the rocker 11 acts. The rocker 11 thereby has a load arm 13 and a power arm 14. Pressing from the outside on the end of the power arm 14, the load arm 13, which forms the leg 9, pivoted outwardly and the cambered bump on its inside is pulled out of the mouth 10 of the spout 2, so that it is released for pivoting. Of course, this still the resistance of the snap lock must be overcome. On the outside of the power arm 14 of the rocker 11 this is provided at the end with a cambered push button 15, so that it can be pushed sufficiently far into the housing, so that the cambered hump is pulled on the load arm 14 completely out of the mouth 10 of the spout 2 and this to swing open.

In Figure 2, the dosing of Figure 1 is shown in a view obliquely from below. You can see the spout 2, which is shown here in the lowered, closed position. In front of its mouth is the rocker 11 with its load arm and power arm 14. On the inside of the power arm 14 here a rib 16 is formed for stiffening the rocker 11 so that the force on the force arm 14 is transmitted from the outside acting force reliably on the load arm of the rocker 11, without the rocker 11 merely curves. This rib 16 begins at the end of the power arm 14 and extends along the rocker 11 beyond the pivot axis 12 to just before the formed on the inside of the load arm cambered hump. Furthermore, it can be seen on the bottom of Dosierverschlusses 1, the opening, which is aufklickbar on a bottleneck. This purpose, the barbs 19. The opening is stabilized by a plurality of stiffening ribs 18. The wall 5 at the root portion of the spout 2 has deformed and, depending on its configuration, closes the spout 2 due to its deformation.

Figure 3 shows the highlighted by a circle detail B of Figure 2 in an enlarged view. Here one can see the section from the wall of the metering closure housing 1, from which a wall piece is exposed through the slots 20, 21, which forms the rocker 11, which is elastically pivotable about a stand-alone material bridge 12. From this rocker 11 of the power arm 14 is visible from its inside, on which also the stiffening rib 16 is visible. You can see further the spout 2, which is here in the lowered, closed position.

Figure 4 shows the dosing in a perspective view from the top rear obliquely down and seen front. In this view you can see the cambered hump 22 on the inner rivet of the load arm 13, because in this illustration the spout 2 is swung up. One side of the spout 2 is formed by a wall piece 6 of the housing 1. This is pivotable about the pivot axis 3, which is formed by a film hinge.

Finally, FIG. 5 shows the detail A raised in FIG. 4 by a circle in an enlarged representation. It can be seen the housing wall 1 and the front part of the channel 8 formed in the metering, in which yes the spout is swung. At the front end of the channel 8, the inner end of the load arm 13 of the rocker 11 can be seen, which with the cambered bump 22nd equipped. This hump is shaped so that it fits sealingly into the mouth of the spout when it is swung down.

The engaging in the mouth of the down-driven spout bump prevents the pivoting of the spout 2, such as when a child tries to aufzuschwenken the spout. In addition, the hump closes the spout sealing so that liquid residues in it do not come into contact with air and therefore can not dry out. At the same time this also prevents dirt and dust from entering the spout. To open the Dosierverschlusses the bump must be pulled out of the spout at the same time, with the thumb of the hand holding the bottle, the button 15 outside of the power arm 14 of the rocker 11 is actuated, while with the other hand, the resistance of the snap on the spout 2 must be overcome so that it can be opened. Alone the holding of the bottle with one hand and the simultaneous operation of the button 15 is impossible for a child due to the smallness of his hands. It is very unlikely that it will be possible to raise the spout at the same time. Therefore, this dosing is child safe and he also closes the equipped with him bottle sealing and avoids any ingress of dirt.

Claims

Claims

1.Dosing cap made of injection-molded plastic for flowable media with a closure housing (1) that can be screwed or clicked onto a bottle neck and a molded spout (2), which moves from a lying, closed position on the closure housing to a standing, open position by means of a snap closure can be swung open, characterized in that the spout (2) is secured in the lying, closed position in addition to the snap closure by a leg (9) elastically pressing against its mouth (10).

2. Dosing closure made of injection-molded plastic for flowable media according to claim 1, characterized in that the spout (2) is secured in the lying, closed position in addition to the snap closure by a leg (9) elastically pressing against its mouth (10), the Leg (9) carries a cambered hump (22) which engages in the mouth (10).

3. Dosing closure made of injection-molded plastic for flowable media according to claim 1, characterized in that the spout (2) is secured in the lying, closed position in addition to the snap closure by a leg (9) elastically pressing against its mouth (10), the Leg (9) has at its end a projection which overlaps the spout (2) in its mouth area.

4. Dosing closure made of injection-molded plastic for flowable media according to one of the preceding claims, characterized in that the leg (9) of the load arm (13) of a rocker (11) with load, which presses elastically against the mouth (10) of the lying spout (2) - (13) and power arm (14), which is formed by part of the housing wall, by the load (13) and power arm (14) from parts of the exposed by slots (20,21) Housing wall (1), and the pivot axis (12) of the rocker (11) is formed by a material bridge in the housing wall (1).

5. Dosing closure made of injection-molded plastic for flowable media according to one of the preceding claims, characterized in that the leg (9) of the load arm (13), which rests elastically against the mouth (10) of the lying spout (2), of a load arm (13) arranged vertically in the housing wall (11) with load (13) and power arm (14), which is formed by part of the housing wall, by the vertically extending load (13) and power arm (14) from parts of the exposed by slots (20,21) Housing wall, and the horizontally extending pivot axis (12) of the rocker (11) is formed by a material bridge (12) in the housing wall.

6. Dosing closure made of injection-molded plastic for flowable media according to one of claims 1, 2, 4 or 5, characterized in that the leg (9) of the load arm (13) which presses elastically against the mouth (10) of the lying spout (2) vertically arranged in the housing wall rocker (11) with load (13) and power arm (14), and that the end region of the load arm (13) on its side facing the housing interior carries a cambered hump (22), which is in the lying position of the Spout (2) sealingly engages in the mouth (10) of the spout (2).

7. Dosing closure made of injection-molded plastic for flowable media according to one of claims 1, 2, 4, 5 or 6, characterized in that the leg (9) of the load arm (13) which presses elastically against the mouth (10) of the lying spout (2) ) a rocker (11) with load arm (13) and power arm (14) arranged vertically in the housing wall, and that the end region of the power arm (14) carries a convex push button (15) on its outside facing away from the housing interior.

8. Dosing closure made of injection-molded plastic for flowable media according to one of the preceding claims, characterized in that the elastically pressing against the mouth (10) of the lying spout (2) Leg of the load arm (13) is a rocker (11) with load (13) and power arm (14) arranged vertically in the housing wall, and that on the inside of the rocker (11), which faces the housing interior, from the area of the power arm (14) a rib (16) standing on the rocker (12) and extending along the same is formed on the rocker axis (12) beyond the pivot axis (12).

9. Dosing closure made of injection-molded plastic for flowable media according to one of the preceding claims, characterized in that the spout (2) in its lying, closed position with its then upper side (6) is a part of the housing top (7) of the closure housing (1) forms.

10. Dosing closure made of injection-molded plastic for flowable media according to one of the preceding claims, characterized in that it forms a housing (1) with a cap that can be screwed or clicked onto a bottle neck, a rubber-elastic deformable seal being inserted in the cap pivoted down spout seals the root area of the spout.