The present invention relates to a bottle with a secure cap.
Caps are known in the art which are designed so that, once they have been attached to a bottle, they are difficult, in practice, to remove. Such caps are designed so that they cannot be removed by an average person using just their hands. It may, however, be possible for the cap to be removed by the use of tools or in some other way applying an unusually high force, but any such removal will often result in destruction of the bottle.
Screw-on caps are known which have ratchet teeth which bias the lid in such a way as to prevent engagement of the complimentary screw threads as the lid is rotated in a direction opposite to the direction in which it was screwed onto the lid. Whilst such mechanisms are effective, the requirement for a screw thread and the ratchet teeth results in a lid which is reasonably thick to accommodate the mechanism. Also, the shape of a cap does not always lend itself to a screw thread engagement, for example if the lower edge or outer skirt of the cap has a non-planer profile.
A number of documents are known in the art (for example, U.S. Pat. No. 4,022,464, U.S. Pat. No. 3,237,819, EP 1 847 472, GB 1 107 605 and U.S. Pat. No. 3,295,730) which disclosed snap-on lids, in which a limited amount of rotation of the cap is specifically provided for in order to open up dispensing orifices. Such containers are generally used for fine powdery material, such as talcum powder and the like. These closures have nothing to do with the secure closure contemplated by the present invention.
The present invention is specifically designed for a bottle which provides a refill for soap and the like which is then dispensed by an automatic dispenser. Once the refill is empty, if the user could remove the cap and refill the bottle, there is a danger that they would fill the bottle with a product which was incompatible with the dispensing device, or would fail to replace the cap properly resulting in leakage into a dispenser which would at best be messy and at worst would damage the device.
One way of addressing this problem is disclosed in our earlier application GB 0820984.3. In this, we disclose a bottle with a tamper-proof cap. This is designed with a retaining member for the lid which is held in place by a frangible member. The frangible member is broken when the cap is removed so that the cap cannot subsequently be retained on the bottle.
While this is effective in achieving the purpose of preventing re-use of the bottle, because it allows the lid to be readily removed, if a consumer inadvertently removes the lid, for example, if they wish to smell the contents of the bottle, they will render the bottle unusable.
According to a first aspect of the present invention, there is provided a bottle with a secure cap, comprising:
a bottle having an open neck and a first retaining flange around at least a portion of the neck; and
a push-on cap fitted over the neck, the cap having an outlet with a valve for controlling flow through the outlet and a second retaining flange positioned so that, upon placement of the cap on the bottle, the first and second retaining flanges deflect relatively to one another as they pass and snap back into place once they have passed with a shoulder of the first retaining flange engaging a shoulder on the second retaining flange to hold the cap securely on the bottle;
one of the bottle neck and cap having a protrusion which fits into a complimentary recess on the other of the bottle neck and cap to substantially prevent relative rotation of the cap and bottle.
The present invention therefore takes a fundamentally different approach from that of GB 0820984.3 in that, rather than preventing re-attachment of the cap, it aims to prevent the cap from being removed at all.
The combination of the engaging shoulders of the first and second retaining flanges, together with the means to prevent relative rotation of the cap and lid makes it very difficult for an average person to gain sufficient purchase on the cap to remove it readily. The mechanism could, of course, be defeated by a determined effort, for example a person inserting a knife or some other implement between the cap and bottle. However, the mechanism can be made robust enough to resist all but the most determined efforts to remove it.
The first and second retaining flanges may be configured so that one or both of them is arranged to be damaged if the cap is removed from the bottle thereby compromising the functionality of the cap.
Preferably, the cap is provided with an auxiliary flange which is positioned so that, with the cap on the bottle, the first retaining flange is retained between the second retaining flange and the auxiliary flange. The auxiliary flange acts to prevent inward deflection of the first retaining flange, thereby making it more difficult for the user to disengage the two shoulders.
Preferably, there is more than one protrusion and corresponding complimentary recess. The protrusion is preferably provided on the bottle while the recess is preferably provided on the lid. The recess is preferably defined by a pair of ribs which extend between an outer skirt of the cap and an inner circumferential element which defines the second retaining flange. This provides structural rigidity for the ribs.
Preferably, at least one of the protrusions, recesses first and second shoulders are provided with bevelled edges to provide guide surfaces as the cap is placed onto the bottle.
According to a second aspect of the invention, there is provided a bottle with a secure cap, comprising a bottle having an open neck and a first retaining flange around at least a portion of the neck; and a push-on cap fitted over the neck, the cap having an outlet which is closed by a closure which is openable by a non-rotational movement and a second retaining flange positioned so that, upon placement of the cap on the bottle, the first and second retaining flanges deflect relatively to one another as they pass and snap back into place once they have passed with a shoulder of the first retaining flange engaging a shoulder on the second retaining flange to hold the cap securely on the bottle; one of the bottle neck and cap having a protrusion which fits into a complimentary recess on the other of the bottle neck and cap to limit or prevent rotation of the cap and bottle.
The closure may be any element which does not rely on rotational movement of the cap in order to open. It could, for example, be a piercable foil but is preferably a resiliently deformable member such as a zel/slit valve or a valve member biased onto its seat by resiliently deformable members.
An example of a secure cap will now be described with reference to the accompanying drawings, in which:
The bottle 1 is a generally rigid plastics container containing liquid soap and the like. It is generally elliptical in cross-section as shown in
The bottle has a neck 2 which is surrounded by a first retaining flange 3. This may either be continuous around the circumference of the neck, or may be intermittent. As shown in
At diametrically opposed locations on the upper portion of the neck, there are a pair of protrusions 5 which have a tapered upper surface 6 as shown in
The cap 7 is best shown in
The second retaining flange 9 is best shown in
At diametrically opposed locations which correspond to the locations of the protrusion 5, the second retaining flange 9 is provided with a number of notches 15 which allow the second retaining flange 9 to deflect as the bottle is inserted into the cap. Between each pair of notches 15 are a pair of radial ribs 16 which extend outwardly to the outer skirt 10. Between the ribs 16, the second retaining flange is interrupted and this defines recesses 17 which accommodate the protrusions 5. Circumferentially outwardly of the ribs 16 is a tapered surface 18.
The manner in which the bottle 1 is inserted into the cap will now be described with reference to
As shown in
In this position, the cap is securely retained on the neck of the bottle and it is very difficult for a user to gain any purchase on the cap, particularly as they are unable to rotate it to any significant extent. In practice, the cap and neck are designed so that the cap cannot be removed by force of less than 15 kg, preferably less than 20 kg, and more preferably 30 kg. When such a force is applied, one of the first three and second flanges is designed to be broken or plastically deformed to such an extent that the cap can no longer be retained on the bottle.
It will also be noted from
Also shown in
The second example of a cap end bottle is shown in
The only difference relates to the configuration of the second retaining flange 9′. In this case, the continuous flange of the first example has been replaced by a component with supported on a plurality of support members 36 separated by gaps 37. Above each gap is a tapered surface 13′ with a similar cross-section to the surface 13 on the first example. As shown in
Number | Date | Country | Kind |
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0912064.3 | Jul 2009 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/GB10/51137 | 7/12/2010 | WO | 00 | 3/27/2012 |