NL8301524A - SCREW CLOSURE FOR A HOLDER. - Google Patents

Description

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Screw closure for a holder.

The invention relates to a screw cap for a container, consisting of a screw cap with ventilation bore, a plug inserted in the screw cap and at least one mushroom valve inserted in the plug for aerating or venting the container.

Screw fasteners of the above-mentioned kind are known per se.

Many filling materials, which are stored in a tightly closed container, split off gases at low temperature differences from the surroundings, which lead to an overpressure in the container.

There are also filling materials, whereby an internal negative pressure can occur in the container through corresponding chemical reactions.

Furthermore, it is possible that a filling material can assume beta-5 behaviors, that is to say, both an over- and an underpressure can arise in the container.

In order to equalize the pressure differences, screw closures have been developed which enable aeration or venting (ventilation) of a container.

Now, in particular with liquid filling material, the requirement is also imposed that such screw closures must prevent as much as possible the escape of liquid from the container.

The hitherto known screw closures cannot meet these requirements.

The object of the present invention is to provide a closure of the type described above in such a way that, in addition to the possibility of reliable aeration and venting, the possibility of a sufficiently reliable density with respect to liquids which is satisfactory in practice is obtained.

This is achieved according to the invention in that ____________._______ 8301524 D ~~ 2 - 9 t -----------------------—- - two stop / from each other contains independent / slot-connected hollow chambers, wherein a mushroom valve for ventilation is provided in the area of a hollow chamber and the ventilation bore opens into the other hollow chamber.

Such a closure offers the density required for practice with regard to an unintentional escape of liquid, since, for example, in the event of an unintentional falling over of a container closed with a screw closure according to the invention, it is first necessary to fill in both chambers with liquid. before it can escape from the bore of the screw cap. Since a container falling over can generally only occur during its transport, and since it should furthermore be assumed that such a falling over is observed, practically always sufficient time remains to place the container 15 upright again before liquid is discharged. has passed through the ventilation hole.

Other features of the invention are set out in the subclaims.

The invention will now be further elucidated with reference to the drawing.

Figure 1 shows a cross section of a screw closure.

Figure 2 shows a detail of a screw closure according to another exemplary embodiment of the invention.

Figure 3 shows a cross section through a screw closure according to another exemplary embodiment of the invention.

Figure 4 shows a cross-section, seen according to arrows IV - IV in Figure 3.

The screw closure shown in figure 1 mainly consists of a screw cap 1, a plug 2 connected to the screw cap 1 and a mushroom valve 3 inserted in the plug 2.

The plug 2 is connected to the screw cap 1, for example, by ultrasonic welding or by bonding.

The stop2 contains two independent 8301524, - 3 - * α ----- ~ * '' ——— 1 'hollow chambers 4 and 5 which are connected only by a slot 6.

The two hollow chambers 4 and 5 are, in the exemplary embodiment of FIG. 1, substantially circular and placed concentrically with respect to each other.

The aforementioned mushroom valve 3 is arranged in the middle hollow chamber 5, which allows ventilation in the case of an overpressure in a container.

A ventilation bore 7, through which gases can escape in the case of overpressure in a container, opens into the other hollow chamber 4, which, as already stated, is exclusively through the slot 6 with the hollow chamber 5 in which the mushroom valve 3 serving for ventilation is located.

In an unfortunate case, if liquid escapes in the area of the mushroom valve 3, the inner hollow chamber 5 and the outer hollow chamber 4 are filled first. Only after a certain time can the liquid escape through the ventilation bore 7.

The time required to fill both hollow chambers 4 and 5 will in practice almost always be sufficient to establish that a container has toppled over and that there is therefore the risk of leakage.

The two mentioned hollow chambers 4 and 5 are separated from each other by ribs 8 of the plug 2, the free ends of the ribs 8 being connected to the upper closing wall 9 of the screw cap 1.

Figure 2 shows an advantageous modified embodiment of the exemplary embodiment of Figure 1.

As can be clearly seen, in the region of its sealing head 10 located in the hollow chamber 5, the mushroom valve 3 is provided with a circumferential sealing lip 11, which, at an increased pressure, which in case of a overturned or overturned container by the splash pressure or by the the mushroom valve produces effective static pressure of the liquid, which comes to rest against the ribs 8, which the hollow chambers 8301524 ~ ~ 4 '' fc. Separate <* 5 ψ 4 and 5. The sealing head 10 abuts directly against the top sealing wall 9 of the screw cap 1, so that with an increased internal pressure due to liquid penetrating outwards, the tendency for the sealing lip 11 to abut against the ribs 8 increases. Figure 2 shows very clearly that the sealing head 10 is placed with its underside on a protruding sealing ring 12 formed in the hollow chamber 5 on the plug 2, so that the effective sealing surface between the plug 2 and the mushroom valve 3 is impeccably defined.

Figure 2 furthermore shows that the bore 13, through which the mushroom valve 3 is inserted, is provided with a ventilation channel 14, through which gases can escape from the interior of the container into the hollow chamber 5.

Also in the exemplary embodiment of Figure 1, a sealing ring 12 is formed in the region of the hollow chamber 5 on the plug 2, the bore 13 of the plug 2 also contains the ventilation channel 14.

Figures 3 and 4 show another exemplary embodiment of the invention.

The plug 2 is provided with two hollow chambers 4 and 5 which are independent of one another, which, as appears especially from Figure 4, are arranged eccentrically with respect to each other.

Mushroom valves 3 are arranged in both hollow chambers 4 and 5. As Figure 3 in particular shows very clearly, the direction of passage of the mushroom valve 3 in the two hollow chambers 4 and 5 is opposite.

The ventilation bore 7 opens into the hollow chamber 4, which is connected to the hollow chamber 5 by a slot 6. The mushroom valve 3 located in the hollow chamber 4 closes the path of the inner space of the container to the outside. On the other hand, in the case of an underpressure prevailing in the container, air can be drawn into the container via the ventilation bore 7, the hollow chamber 4 and the mushroom valve 3 located in this hollow chamber 4.

The padde-35 seat valve located in the hollow chamber 5, on the other hand, closes the air supply from the outside into the interior 8301524, ~ 5 - - »Η · ec ---------------- ·" - Space away from the container Conversely, the overpressure created in the interior of the container can be reduced via the mushroom valve 3 located in the hollow chamber 5.

In the case where liquid has to exit from the container 5, this exiting liquid first enters the hollow chamber 5 when this hollow chamber 5 is filled, and the liquid enters through the slot 6 into the hollow chamber 4, into which the ventilation bore 7 of the screw cap 1 also opens. Only when the hollow chamber 4 is also completely filled can the liquid actually escape from the screw cap 1.

The screw closure according to Figures 3 and 4 offers the possibility of both aerating and venting a container and, moreover, the advantages associated with the invention with regard to preventing or temporarily delaying a possible escape of liquid.

In the case that in a construction with two mushroom valves 3 according to the embodiment according to Figures 3 and 4, if the mushroom valve 3 serving for degassing is provided, the hollow chamber 5 is of cylindrical design, this degassing valve may also be of a circumferential sealing lip. provided, as in the exemplary embodiment according to figure 2. Screw cap 1, plug 2 and mushroom valve 3 are made of plastic in all embodiments, as usual.

8301524

Claims (5)

1. Screw closure for a container, consisting of a screw cap with ventilation bore, a plug inserted in the screw cap with at least one mushroom valve 5 inserted in the plug for aerating or venting the container, characterized in that the plug (2) is separated from each other independent hollow chambers (4, 5) connected by a slot (6) or the like, a mushroom valve (3) serving for venting being arranged in the region of a hollow chamber (5) and the ventilation bore (7) in the another 10 hollow chamber (4) opens. Screw closure according to claim 1, characterized in that the mushroom valve (3) serving for venting is provided in the region of its sealing head (10) with a circumferential sealing lip (11) attached to said ribs (8). borders which separate the hollow chambers (4, 5). Screw closure according to claims 1 or 2, characterized in that the plug (2) has a mushroom valve (3) in the region of each hollow chamber (4 and 5), the direction of passage of the mushroom valves opposite each other is. Screw closure according to any one of the preceding claims, characterized in that the plug (2) is firmly connected to the screw cap (1) by ultrasonic welding or by adhesion. Screw closure according to any one of the preceding claims, characterized in that the screw cap (1), the plug (2) and the mushroom valve (3) are manufactured in known manner from plastic. 83 0 1 5 2 4