EP0627357A1

EP0627357A1 - Screw cap with means for preventing overtightening

Info

Publication number: EP0627357A1
Application number: EP94303436A
Authority: EP
Inventors: Thomas C/O Carters Packaging Porritt; Ian C/O Carters Packaging Darby; Nicholas C/O Carters Packaging Sendall
Original assignee: CARTERS DRINKS GROUP Ltd
Current assignee: CARTERS DRINKS GROUP LIMITED
Priority date: 1993-05-15
Filing date: 1994-05-13
Publication date: 1994-12-07
Anticipated expiration: 2014-05-13
Also published as: FI942221A; DE69413307D1; GB9310052D0; NO941797L; FI942221A0; NO941797D0; EP0627357B1

Abstract

A closure (10 for a vessel 12) comprises securing means (14) to secure the closure (10) to the vessel (12). The closure (10) also includes stop means (19) separate from the securing means (14). The stop means (19) can engage a stop element (24) on the vessel (12) to assist in preventing overtightening of the closure (10) on the vessel (12). In one embodiment the stop means will deform should the closure be overtightened, to allow venting of overpressure within the vessel.

Description

This invention relates to closures, and particularly, but not exclusively, to closures in the form of caps for containers adapted to hold effervescent liquids.
The bottling of effervescent liquids, for example, orangeade or lemonade requires that the cap of the bottle is screwed on tight enough to prevent the carbon dioxide in the liquid from escaping. Also, it is necessary that the cap is not so tight that it is difficult for certain people, for example, children or the elderly to unscrew the top.
However, in some cases, the caps are screwed on so tightly that it is difficult for such people to unscrew the cap. It is possible to purchase a tool which will assist in the unscrewing of bottle caps which enables the user to apply greater leverage to the cap than would be possible if they were using their hands. The disadvantage of such a tool is that there is a tendency for users to try to twist the cap in the wrong direction and effectively over tightening it. This can cause the threads to be jumped. In view of the fact that the liquids in the bottles can contain carbon dioxide there can be, in certain circumstances, a build up of pressure inside the bottle. When the cap of the bottle is over tightened such that the threads are jumped, the pressure inside the bottle can cause the cap to be blown off at speeds of upto 250mph with a force that can cause injury. The expression "missiling" is used in the art to describe caps being blown off bottles in this way.
It is an object of this invention to obviate and/or mitigate this disadvantage.
According to one aspect of this invention there is provided a closure for a vessel, the closure comprising securing means to secure the closure to the vessel and stop means separate from the securing means, wherein the stop means can engage a stop element on the vessel to assist in preventing the closure being overtightened onto the vessel.
In this specification, the term "overtightened" refers to the situation where the closure is secured onto the vessel beyond a predetermined degree of tightness. The term "overtightening" is intended to be construed accordingly. In the preferred embodiment, the stop means is arranged on the closure to engage said stop element at said predetermined degree of tightness.
Preferably, the closure comprises a side wall defining a cavity having a closed end and an open end to receive a top region of the vessel via the open end. The securing means may be in the form of threads adapted to cooperate with corresponding threads on said top region of the vessel. The stop means is preferably arranged adjacent the closed end of the closure and may be spaced from the securing means.
The stop means may include a raised portion extending inwardly of the side wall. The raised portion may extend at least partially around the inner circumference of the side wall. Preferably, the raised portion extends substantially wholly around the inner circumference of the side wall.
The stop means may also include an abutment extending from said raised portion towards said open end of the closure. The abutment may include a first sloping portion sloping towards and, preferably, merging with the raised portion, and a second sloping portion adapted to engage said stop element on the vessel.
Advantageously, in the event of overtightening the closure on the vessel, the second sloping portion is adapted to cooperate with said stop element to cause deformation of said stop means, thereby causing said closure to deform to create a gap between the closure and the wall of the vessel to allow any pressurised gas in the vessel to be released via said gap.
In a first embodiment, the second sloping portion may slope inwardly of the cavity from the side wall of the closure towards said first sloping portion. In a second embodiment, the second sloping portion may slope from said raised portion to said first sloping portion to define a V-shaped recess with said raised portion to receive said stop element on the vessel.
The closure may be in the form of a cap for a container, preferably a bottle cap, and the preferred embodiment is particularly suitable for use with bottles adapted to hold effervescent beverages.
According to another aspect of the invention there is provided a closure for a vessel, the closure comprising securing means to secure the closure to the vessel and stop means defining an abutment adapted to cooperate with a stop element on the vessel whereby when the closure is overtightened on the vessel, the stop means deforms, thereby causing the closure to deform to create a gap between the closure and the wall of the vessel to allow any pressurised gas in the vessel to be released via said gap.
According to another aspect of this invention, there is provided a vessel for use with a closure described in paragraphs 5 to 13 above, said vessel being provided with securing formations, adapted to cooperate with the securing means on the closure to enable the closure to be secured to the vessel by tightening the closure thereto, and a stop element adapted to cooperate with the stop means on the closure to assist in preventing overtightening of the closure on the vessel.
The vessel may be in the form of a bottle which may be adapted to hold effervescent beverages.
Preferably, the securing formations are in the form of threads adapted to cooperate with corresponding threads on the closure. Preferably the stop element is in the form of a shoulder defined by said threads against which the stop means on the closure can abut. Conveniently, the shoulder is defined at the end of the threads closest to the open end of the vessel.
Alternatively, the stop element may be separate from the threads on the vessel and is preferably in the form of a protrusion extending from the vessel. Conveniently, the protrusion is provided adjacent the top of the vessel.
The stop element may have a flattened surface extending transverse to the wall of the vessel. The flattened surface may be provided a lip extending along an edge thereof remote from the wall of the vessel.
Preferably, the stop element has a further flattened surface extending substantially parallel to the wall of the vessel. Preferably, the distance of said further flattened surface from the wall of the vessel is less than the height of the remainder of the threads at said top region.
Advantageously, when the closure is overtightened on the vessel, said lip cooperates with the stop means thereby causing some of the material of the stop means to be scraped off by the lip, to collect between the lip and the first mentioned flat surface thereby increasing the resistance against overtightening.
According to a further aspect of this invention, there is provided a system comprising a closure as described in paragraphs 5 to 13 above and a vessel as described in paragraphs 14 to 20 above, the closure being adapted to be secured to the vessel by tightening the closure relative thereto.
According to another aspect of the invention there is provided a method of forming a closure member as described in paragraphs 5 to 13 above, comprising providing a vessel as described in paragraphs 14 to 20 above to which the closure is to be secured, applying a first mark to said vessel in alignment with the stop element, tightening the closure onto the vessel until a predetermined degree of tightness is attained, applying a second mark to the closure in alignment with said first mark, and thereafter using the marked closure as a guide to manufacture further closures.
Embodiments of the invention will now be described by way of example only, in which:

Fig. 1 is a schematic part cross-sectional side view of a closure;
Fig. 2 is a view along the lines II-II in Fig. 1
Fig. 3 is a schematic side view of a top region of a vessel;
Fig. 4 is a view along the lines IV-IV in Fig. 3
Fig. 5 is a schematic part cross-sectional side view of the closure as shown in Fig. 1 secured to the top region of a vessel as shown in Fig. 3
Fig. 6 is a schematic perspective view of an alternative version of a closure;
Fig. 7 is a sectional view along the lines VII-VII in Fig. 6;
Fig. 8 is a schematic perspective view of the top of a vessel;
Fig. 9 is a schematic view of an alternative version of stop means; and
Fig. 10 is a side view of an alternative version of the top of a vessel.

Referring to Figs. 1 to 5, there is shown a closure in the form of a cap 10 (Fig. 1) for a vessel in the form of a bottle 12 (Fig. 3) only the top of which is shown for clarity. The cap 10 is provided with securing means in the form of threads 14, and the bottle 12 is provided with securing formations in the form of corresponding threads 16 adapted to threadably engage the threads 14 on the cap 10. The cap 10 can be screwed onto the top of the bottle 12 and tightened to a predetermined degree of tightness. This is important where the bottle contains an effervescent liquid, for example orangeade or lemonade, to prevent the carbon dioxide in the liquid from escaping. The cap 10 has an open end 11, a closed end 13 and a side wall 15 defining a cavity 17.
The cap 10 is provided with stop means comprising a raised portion 18 and an abutment 19. The raised portion 18 projects inwardly of the side wall 15 and extends around the inner circumference of the side wall 15 adjacent the closed end 13. The abutment 19 extends from the raised portion 18 towards the open end 11. The abutment has a first sloping surface 20 which slopes towards and merges with the raised portion 18 and the abutment 19 are attached to the side wall 15 and may be formed as the remainder of the cap for example by moulding.
The abutment 19 is also provided with a second sloping surface 21 which slopes inwardly towards the raised portion 18 to define a V-shaped recess 22, the purpose of which will be explained below. The bottle 12 is provided with a stop element against which the projection 18 can abut. In the embodiment shown in Fig. 3 the stop element is in the form of a shoulder 24 defined by the end of the threads 16 adjacent the opening in the top of the bottle 12. The shoulder 24 prevents the cap 10 being overtightened on the bottle 12 in the factory.
The abutment 19 is arranged adjacent the closed end 13 of the cap, as shown in Fig. 1, because the cap is most rigid at that position, and is unlikely to deform by excessive forces being applied thereto during tightening.
As can be seen from Fig. 4, the shoulder 24 is received in the V-shaped recess 22 and is engaged by the abutment 19 on tightening the cap 10 onto the bottle 12. The engagement of the shoulder 24 with the abutment 22 resists overtightening of the cap 10 on the bottle 12.
Referring to Fig. 4, there is shown a view of the end of the shoulder 24 which is an extension of the threads 16. The shoulder 24 is provided with a flat surface 25 extending along the wall 26 substantially perpendicular thereto. A lip 27 extends along an edge of the flat surface 25 substantially parallel to the wall 26. The lip 27 extends along the edge of the flat surface 25 for only a few millimetres, for example to the point 28 as shown in Fig. 4.
The shoulder 24 also comprises a further flat surface 28 which extends substantially parallel to the wall 26. As can be seen from Fig. 4, the lip 27 extends along the edge joining the flat surfaces 25,28.
In the event that the cap 10 is overtightened on the bottle 12, the abutment 19 is forced against the shoulder 24 thereby deforming the abutment 19. Also, the lip 27 cooperates with the abutment 19 and is received with the V-shaped recess. The lip 27 then scrapes off some of the material forming the abutment 19, thus increasing the resistance to overtightening. If the cap is tightened further, the lip 27 hooks onto the abutment 19 thereby deforming the cap 10 to create a gap between the cap 10 and the wall 26 of the vessel 12. Thus, any pressurised gas in the bottle 12, for example carbon dioxide released from an effervescent liquid such as lemonade, is released via the gap.
It is an advantage of the preferred embodiment of this invention that it reduces the risk of the cap missiling by allowing any pressurised gas in the bottle to be released, in the event of overtightening, by deforming and preventing the threads from being stripped.
The preferred embodiment also has the advantage that it prevents caps being overtightened by the capping machines. When the shoulder 24 engages the abutment 19, there is then a resistance to further tightening and the capping machine gripping the cap 10 slips around the cap 10 preventing further tightening.
The position of the abutment 19 is determined such that the stop 18 engages the shoulder 24 when a predetermined degree of tightness of the cap 10 on the bottle 12 has been reached. Such a degree of tightness is sufficient to ensure that the carbon dioxide in the liquid does not escape, but is not so tight that certain people, for example children or the elderly cannot undo the cup. A preferred degree of tightness is 20 lb/in².
In order to determine accurately the position of the abutment 19, the bottle is initially marked at a position directly below the shoulder 24 at a point on the bottle which would enable the mark to be seen when the cap 10 is screwed on tightly. A cap 10 without a abutment 19 is then screwed onto the top of a bottle 12 until a predetermined amount of torque is reached, for example 20 lb/in². The portion of the cap 10 adjacent the mark on the bottle is then also marked to indicate where the stop should be positioned. The cap 10 so marked can then be used to form a mould for forming further caps 10 with the abutment 19.
Figs. 6 to 9 which show an alternative embodiment of the invention, in which many of the features shown in Fig. 1 to 5 are also present in Figs. 6 to 9. These features have been designated with the same reference numerals. As can be seen from Figs. 6 to 9, the cap 10 comprises an abutment 119, in the form of a projection. The projection is adapted to abut against the shoulder 24 on the threads 16 of the top of the bottle 12 at the predetermined degree of tightness.
Fig. 9 shows, schematically, that the abutment 119 and the shoulder 24 can be correspondingly shaped, for example as shown in Fig. 9, to further resist against overtightening.
Various modifications can be made to the invention without departing from the scope thereof for example, the shoulder 24 or the stop 18 may be formed such that the edges adapted to engage each other are defined at an angle to the top of the bottle 12 or the cap 10, as shown in Fig. 4. Alternatively, the stop 18 and the shoulder 24 can be of any other suitable configuration.
In another embodiment, as shown in Fig. 10, the stop element is in the form of a protrusion 128 adjacent to, but separate from the end 120 of the threads 16 on the bottle 12. The abutment 119 on the cap 10 shown in Fig. 6 is adapted to abut against the protrusion 128 to prevent over tightening. Thus, the protrusion 128 has, in essence, the same function as the shoulder 24. The protrusion 28 can be moulded on to the top of the bottle when the bottle is in its preform state, as would be appreciated by persons skilled in the art, in a predetermined position.
A further alternative modification (not shown) is to provide the threads 14 on the cap 10 with a shoulder, similar to the shoulder 24, and to provide the bottle with a protrusion, similar to the protrusion 28, in a predetermined position such that the shoulder on the threads 14 of the cap 10 abuts against the protrusion on the top of the bottle 12.
Whilst endeavouring in the foregoing specification to draw attention to those features of the invention believed to be of particular importance it should be understood that the Applicant claims protection in respect of any patentable feature or combination of features hereinbefore referred to and/or shown in the drawings whether or not particular emphasis has been placed thereon.

Claims

A closure for a vessel, the closure comprising securing means to secure the closure to the vessel and stop means separate from the securing means, wherein the stop means can engage a stop element on the vessel to assist in preventing the closure being overtightened onto the vessel.
A closure according to Claim 1 including a side wall defining a cavity having a closed end and an open end to receive a top region of the vessel via the open end, wherein the securing means is in the form of threads adapted to cooperate with corresponding threads on said top region of the vessel, and the stop means being arranged adjacent the closed end of the closure.
A closure according to Claim 1 or 2 wherein the stop means includes a raised portion extending inwardly of the side wall, the raised portion may extend at least partially around the inner circumference of the side wall.
A closure according to Claim 3 wherein the raised portion extends substantially wholly around the inner circumference of the side wall.
A closure according to Claim 3 or 4 wherein the stop means also includes an abutment extending from said raised portion towards said open end of the closure, the abutment including a first sloping portion sloping towards and merging with the raised region, and a second sloping portion adapted to engage said stop element on the vessel.
A closure according to Claim 5 wherein in the event of overtightening the closure on the vessel, the second sloping portion is adapted to cooperate with said stop element to cause deformation of said stop means, thereby causing said closure to deform to create a gap between the closure and the wall of the vessel to allow any pressurised gas in the vessel to be released via said gap.
A closure according to Claim 5 or 6 wherein the second sloping portion slopes inwardly of the cavity from the side wall of the closure towards said first sloping portion.
A closure according to Claim 5 or 6 wherein the second sloping portion slopes from said raised portion to said first sloping portion to define a V-shaped recess with said raised portion to receive said stop element on the vessel.
A closure for a vessel, the closure comprising securing means to secure the closure to the vessel and stop means defining an abutment adapted to cooperate with a stop element on the vessel whereby when the closure is overtightened on the vessel, the stop means deforms, thereby causing the closure to deform to create a gap between the closure and the wall of the vessel to allow any pressurised gas in the vessel to be released via said gap.
A vessel for use with a closure claimed in any of Claims 1 to 9, said vessel being provided with securing formations, adapted to cooperate with the securing means on the closure to enable the closure to be secured to the vessel by tightening the closure thereto, and a stop element adapted to cooperate with the stop means on the closure to assist in preventing overtightening of the closure on the vessel.
A vessel according to Claim 10 wherein the securing formations are in the form of threads adapted to cooperate with corresponding threads on the closure, the stop element being in the form of a shoulder defined by said threads against which the stop means on the closure can abut.
A vessel according to Claim 11 wherein the shoulder is defined at the end of the threads closest to the open end of the vessel.
A vessel according to Claim 11 wherein the stop element is separate from the threads on the vessel and is in the form of a protrusion extending from the vessel.
A vessel according to Claim 13 wherein the protrusion is provided adjacent the top of the vessel.
A vessel according to any of Claims 10 to 14 wherein the stop element has a flattened surface extending transverse to the wall of the vessel, said flattened surface being provided a lip extending along an edge thereof remote from the wall of the vessel.
A vessel according to Claim 15 wherein the stop element has a further flattened surface extending substantially parallel to the wall of the vessel, the distance of said further flattened surface from the wall of the vessel is less than the height of the remainder of the threads at said top region.
A vessel according to Claim 15 or 16 whereby when the closure is overtightened on the vessel, said lip cooperates with the stop means thereby causing some of the material of the stop means to be scraped off by the lip, to collect between the lip and the first mentioned flat surface thereby increasing the resistance against overtightening.
A system comprising a closure as claimed in any of Claims 1 to 9 and a vessel as claimed in any of Claims 10 to 17, the closure being adapted to be secured to the vessel by tightening the closure relative thereto.
A method of forming a closure member as claimed in any of Claims 1 to 9, comprising providing a vessel as claimed in any of Claims 10 to 17 to which the closure is to be secured, applying a first mark to said vessel in alignment with the stop element, tightening the closure onto the vessel until a predetermined degree of tightness is attained, applying a second mark to the closure in alignment with said first mark, and thereafter using the marked closure as a guide to maufacture further closures.