Key Ring

Abstract

A key ring is capable of removing a crown cap from a bottle. The crown cap has a rim and a top. The key ring can adroit and retain keys and comprises a closed loop including a first portion having a pair of elongated arms that extend in the same general direction (Y) and are spaced apart in an orthogonal direction (X) by a distance of 10 to 40 mm. The bottle can be opened by locating one of the arms under the rim of a crown cap while the other of the arms is located on the top of the crown cap and the key ring is twisted in the direction of arrow A, The length of the loop in the direction (Y) is at least 20 mm so that the loop includes a second portion that extends laterally beyond the crown cap by a distance that allows the key ring to be engaged by the user to twist the key ring and lever the cap off the bottle. A key on the key ring and/or an extension of the key ring loop in the X direction can assist in levering the cap off the bottle.

Description

CROSS-REFERENCE TO RELATED APPLICATION

The present application claims the benefit of and priority to European Patent Application No. 12172309,2, filed Jun. 15, 2012, which is incorporated herein by reference in entirety.

FIELD

The present disclosure relates to a key ring that can admit and retain keys on it.

BACKGROUND

Bottles are often sealed with crown corks, also known as crown caps, such as depicted in FIG. 1 having a top 11 and a rim 12 composed of a series of spaced flutes. Such caps have a diameter of about 30 mm and a depth of about 6 mm. The flutes are crimped around the neck of a bottle to seal it. In order to open such crown caps, a bottle opener is used that engages under the fluted rim 12 and also engages the top 11; a lever action is applied to prise the crown cap off the bottle. Key ring fobs that can be used as bottle openers are well known for attachment to normal key rings. However, they have the disadvantage that they are bulky and heavy. U.S. Pat. No. 5,438,555. discloses a fob that includes a closed ring that can be used to remove caps from bottles and a handle within the fob to provide the appropriate leverage. This ring cannot accommodate keys, although a standard key ring that can hold keys can be attached to it.

SUMMARY

Generally speaking, the disclosure relates to a key ring that is itself capable of removing as crown cap from a bottle. The key ring is formed as a closed loop and especially a single closed loop haring curved sections that allow keys to be moved readily around the loop.

The key ring is configured to admit, retain and remove keys; this configuration can be provided by making the key ring as a split ring having a helical path for admitting and removing keys from the ring, as is well known. Alternatively, the key ring may be formed with a break that is spanned by a bridge that can be opened to admit and remove keys and kept closed to retain keys on the key ring.

The key ring has a pair of spaced-apart elongate arms that extend in the same general direction as each other. In the present specification, the direction in which the arms extend will be referred to as the “Y direction” and the length of the key ring in the Y direction will be referred to as the “Y length”. Similarly, the spacing between the arms will be referred to as the “X direction” while the distance between the arms will be referred to as the “X width”. The arms may be straight and parallel to each other, but a certain amount of curvature in the arms and a small variation in the separation between the arms can be tolerated while still performing the dual function of a key ring and a bottle opener.

As mentioned, the arms should extend in the same general direction (Y direction) and be separated by a distance (X width) of 10 to 40 mm, e.g. 12 to 26 mm for example 14 to 22 mm, such as 15 to 19 mm, e.g. about 17 mm. With such an arrangement, it is possible to use one arm to engage under the fluted rim 12 of a crown cap while the other arm is applied against the top 11 of the crown cap. The key ring can then be twisted to lever the fluted rim off the bottle. The axis of the twisting motion will lie in the Y direction. The application of this twisting motion on the key ring is provided by extending the key ring in the Y direction so that a lateral portion of the key ring lies alongside the crown cap as it is being opened as described above. In order to provide this lateral portion, the length of the loop in the Y direction is preferably at least 20 mm and, although there is no theoretical upper limit, a key ring with a length of more than 100 mm is cumbersome to carry around and so the length of the loop in the Y direction would not generally exceed that. In addition, the longer the Y length is, the more the key ring will flex when the twisting motion is applied to remove the cap front the bottle. In practice, the length of the loop in the Y direction will generally be in the range of 20 to 40 mm e.g. 22 to 35 mm, for example 23 to 30 mm, such as about 25 mm. The limits in any series of ranges quoted in this specification can be exchanged and so the present disclosure contemplates ranges with any of the minima in the series in combination with any of the maxima, e.g. it contemplates a range for the length of the loop in the Y direction of 22 to 40 mm.

In order to increase the twisting force applied by the key ring to the cap, a key that is already on the key ring can be positioned so that it returns on itself (i.e. it spans the lateral portion and engages the ring at 2 points spaced apart in the X direction) and the key can then be twisted to lever the cap of the bottle. Instead of a key, another lever can be introduced into this lateral portion to help lever the crown cap off the bottle. A further way of providing leverage to increase the twisting force removing the cap is to extend the key ring in the lateral portion in the X direction, for example by at least 10 mm, as will be more fully discussed below.

In order to lever a crown cap off a bottle, it is not necessary for the arm engaging the top of the cap to extend across the centre of the cap and it is possible to lever the cap off by engaging an edge portion of the cap only As mentioned above, the separation between the arms (the X width) should be in the range of 10 to 40 mm, such as 10 to 26 mm. If the X width is towards the top end of this range, the arm engaging the top surface of the cap will have to be longer in order to span the cap at its point of engagement with the top surface and therefore, in order to provide the above-mentioned lateral portion, the length of the key ring in the Y direction will have to be larger than if the X width lies towards the bottom of the above range. Therefore, if the X width is towards the top of the above range, for example 20 to 26 ram or even more, then the length of the key ring in the Y direction should preferably lie outside the lower values of the above ranges. However, as mentioned above, it is desirable to limit the length of the key ring for reasons of convenience and to avoid undue flexing when the twisting motion is applied to remove the cap from the bottle. Therefore if the X width is towards the top of the above range, the Y length may, for example be 25 to 50 mm, for example 27 to 40 mm. Accordingly, a separation between the arms (X width) of 15 to 19 mm, e.g. about 17 mm, in combination with a length of the key ring in the Y direction of 22 to 28 mm, such as 25 mm, has been found to be most preferred. Also preferred is for the Y length to exceed the X width, e.g. the ratio of Y length to X width may be at least 1.1:1, for example 1.25:1 to 3:1, e.g. 1.4:1 to 2:1.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is an image of a crown cap;

FIGS. 2 to 5 are schematic views of a key ring in accordance with the present disclosure; and

FIG. 6 is as schematic view of a key ring in accordance to the present disclosure that shows the use of a key to Increase the leverage force of the bottle opener.

DETAILED DESCRIPTION OF THE DRAWINGS

FIG. 1 is a picture of a standard crown cap 10 (also called a crown cork), which has a top surface 11 and a rim 12 composed of a series of spaced flutes, which are crimped onto the neck of a bottle in order to seal it.

FIG. 2 shows a key ring of the present disclosure having a split ring configuration with the opening of the split ring to admit keys to the key ring being shown by the reference number 18. The key ring has a pair of straight arms 20, 22 that are separated by a distance X of 10 to 40, e.g. 12 to 26 mm and in one embodiment is 17 mm.

The length at the key ring Y is 20 to 32 mm or even longer and in one embodiment is 25 mm as against a distance X of 17 mm. FIG. 2 also shows a bottle top 10. Pan of the key ring can be flattened as shown by the reference number 24 in order to assist in the engagement of the key ring with the bottom rim 12 of the cap 10. When such a portion engaging under the rim is provided, the distance X is measured between such a portion and the other arm. As can be seen from FIG. 2, the flattened portion 24 of the arm 22 is placed under the rim 12 of the cap 10 while the other arm 20 engages the top of the cap 11. This means that the right hand side of the key ring (as seen in FIG. 2) extends beyond the side of the cap to provide a lateral portion 25 and can be used to lever the cap off the bottle by grasping the lateral portion 25 of the key ring and applying a twisting action shown by an arrow A. In this context, additional force can be applied using a lever extending through the lateral portion 25 of the key ring, i.e. the right-hand part of the key ring of FIG. 2. Such leverage can be applied by a key on the key ring that is returned on itself, as shown in FIG. 6. Alternatively or in addition, the leverage can be provided by increasing the width of the direction X in the above-mentioned lateral portion (shown in the right hand side of FIG. 2). This will be described in connection with FIGS. 3 to 6.

Instead of providing a flattened portion 24, a lug (not shown) may be wielded to the ring to provide a similar effect.

Referring now to FIG. 3, it can be seen that only the left hand side of the key ring (indicated by the arrow Y) is used for engaging the crown cap while the right hand side of the key ring (indicated by the width Y2) is a lateral portion 25 that has an additional loop 26 to increase the width of the key ring in the X direction, which allows a user to engage the loop 26 with his thumb and twist the key ring as shown by arrow A; the additional width provided by the loop 26 increases the force of the twisting action, which makes it is easier to remove the bottle top. The additional width in the X direction provided by the loop 26 is preferably at least 10 mm as compared cap to the separation between the arms in the left hand, engaging portion of the key-ring.

A similar arrangement is shown in FIG. 4 except that two loops 26 and 28 are provided at the end of each of the arms 20, 24, which provides greater torque for the twisting movement shown by arrow A to remove the cap from the bottle, as already described in connection with FIGS. 2 and 3.

FIG. 5 is essentially the same as FIG. 3 except that the loop 26 has been extended by a further distance in the X direction, for example at least 20 mm beyond arm 22.

As already described, a lever can be used to increase the torque of the twisting action. This lever may be a key 30 already provided on the key ring, as shown in FIG. 6.

As will be evident, it is necessary to make the key ring so that it is robust enough to withstand the twisting action mentioned above to remove a crown cap from a bottle.

The key ring of the present disclosure may be made of the same material as key rings are currently made of, e.g. stainless steel or chromium plated steel, and can be made using standard metal forging processes.

Claims

1. A key ring capable of removing a crown cap from a bottle, which crown cap has a rim and a top, wherein the key ring is configured to admit and retain keys, wherein the key ring comprises a closed loop including a first portion having a pair of elongated arms that extend in the same general direction (Y) and are spaced apart in an orthogonal direction (X) by a distance of 10 to 40 mm, whereby one of the arms can be located under the rim of a crown cap while the other of the arms is located on the top of the crown cap, and wherein the length of the loop in the direction (Y) in which the arms extend is at least 20 mm, whereby the loop includes a second portion that extends laterally beyond the crown cap by a distance that allows the key ring to be engaged by the user to lever the cap off the bottle.

2. A key ring as claimed in claim 1, wherein the pair of elongated arms are spaced apart by a distance of 12 to 26 mm

3. A key ring as claimed in claim 1, wherein the pair of elongated arms are spaced apart by a distance of 14 to 22 mm.

4. A key ring as claimed in claim I , wherein the pair of elongated arms are spaced apart by a distance of 15 to 19 mm.

5. A key ring as claimed in claim 1, wherein the pair of elongated arms are spaced apart by a distance of about 17 mm.

6. A key ring as claimed in claim 1, wherein the length of the loop in the direction (Y) in which the arms extend is 20 to 40 mm.

7. A key ring as claimed in claim 1, wherein the length of the loop in the direction (Y) in which the arms extend is 22 to 32 mm

8. A key ring as claimed in claim 1, wherein the length of the loop in the direction (Y) in which the arms extend is 22 to 28 mm.

9. A key ring as claimed in claim 1, wherein the length of the loop in the direction (Y) in which the arms extend is about 25 mm.

10. A key ring as claimed in claim 1, wherein the length of the key ring in the Y direction exceeds the Width of the key ring in the X direction.

11. A key ring as claimed in claim 1, wherein the ratio of the length in the Y direction o the width in the X direction is at least 1.1:1

12. A key ring as claimed, in claim 11, wherein said ratio is in the range of 1.25:1 to 3:1.

13. A key ring as claimed, in claim 11, wherein said ratio is in the range of 1.4:1 to 2:1.

14. A key ring as claimed in claim 11, wherein the second portion has a width in the said orthogonal direction (X) that is at least 10 millimetres greater than the separation between the arms.

15. A key ring as claimed in claim 14. wherein the second portion comprises a loop that extends in the said orthogonal direction (X) beyond only one of the arms.

16. A key ring as claimed in claim 14, wherein the second portion comprises a loop that extends in the said orthogonal direction (X) beyond both of the arms.

17. A key ring as claimed in claim 1, wherein a fiat land is provided on the inside of at least one of the arms to engage under the rim of a crown cap.

18. A key ring as claimed in claim 1 which is configured to allow a key on the key ring to act as a lever by spanning the key ring second portion so that it contacts the ring at 2 points that are spaced apart from each other in the X direction, whereby the key can be twisted to assist in levering the cap off the bottle.

19. A method of removing a cap from a bottle using a key ring as claimed in claim 1, the method comprising engaging one of the arms in the first section under the rim of the cap and engaging the other of the arm in the first section with the top of the cap and twisting the second portion lying laterally beyond the cap to lever the cap off the bottle.

20. A method as claimed in claim 19, wherein a key on the key ring is used as a lever by spanning the key ring second portion so that it contacts the ring at 2 points that are spaced apart from each other in the X direction, whereby the key can be twisted to assist in levering the cap off the bottle.