The present invention relates to a climbing aid, particularly but not exclusively a spring loaded camming device for rock climbing.
Spring loaded camming devices (SLCDs or cams) were invented by Ray Jardine in the late 1970s to provide a safety protection device for rock climbing (U.S. Pat. No. 4,184,657). The device enables an rope to be anchored within a narrow gap or crevasse in a rockface and has the advantage of causing no damage to the rock face in contrast to earlier types of anchoring device that were physically jammed into the rock surface causing scarring of the face on their removal.
The camming device comprises two to four cams mounted on an axle such that pulling on the axle forces the cams to spread apart. The cams are pivotally mounted on a spindle carried by a support bar and are adapted to engage opposing walls of a crack in a rockface, the cams being biased towards the open position. A trigger linked to the cams via cabling is provided to enable the cams to be pulled into the closed position to allow insertion into a crack or pocket in a rock. Once inserted, release of the trigger causes the cams to expand and hold on to the rockface. Pulling further on the support bar increases the counter-pressure of the cams on the rockface, thereby strengthening the grip of the SLCD. Removal of the SLCD is achieved by pulling the trigger to rotate the cams to their closed position. A climbing rope can be attached to a sling and carabiner at the end of the support bar.
Whilst the aforementioned cam is extremely popular and entirely fit for purpose, its use is limited to cracks or holes in rocks or other climbing structures that are of a small dimension (generally less than 100 mm, more often less than 50 mm).
It is an object of the present invention to provide an improved climbing aid, in particular a spring loaded camming device, that aims to overcome or at least alleviate the abovementioned drawbacks.
Accordingly, the present invention provides a climbing aid comprising two support arms rotatably mounted about an axis, each arm having at its free end at least one pivotally mounted cam, and locking means for preventing rotation of the arms on reaching a predetermined angle with respect to each other.
Ideally, each arm carries two cams more preferably two parallel cams. The cams should be spring mounted and lie in the same plane as the arms.
Preferably, the arms are locked in position when the intended lower faces of the arms are at an angle of approximately 180 degrees, more preferably exactly 180 degrees. The arms are preferably the same length, being mounted about a central axis. It is envisaged that the maximum length of the climbing aid, i.e. when the arms are in the locked position, will be at least 100 mm, more preferably at least 150 mm. It is to be appreciated that camming devices of different sizes may be provided according to the present invention.
It is preferable for the intended upper faces of the arms to be angled such that, in the locked position, the upper faces lie parallel with the bracing angle of the cams. This angle will depend upon the type of cam to be used, with the angle being set to the definitive bracing angle of the cams. For example, if a proprietary cam of Wild Country (Trade Mark) is used, the angle should be 13.75 degrees.
In a preferred embodiment of the present invention, each arm comprises a limb having a cylindrical spindle extending transversely thereto at one end and a circular disc extending transversely thereto at the other end. Preferably, the arm is formed as an integral unit. A cam may be spring mounted at each end of the spindle by suitable means.
The disc is preferably approximately half the breadth of the limb of the arm and provided with a groove in the intended upper region thereof. More preferably, the discs of the two arms are located on opposing sides of their respective limbs to enable the discs to abut together in the assembled device. Each disc is preferably provided with a bore through the centre thereof for receiving an axle.
Preferably, locking of the arms is achieved automatically upon reaching the predetermined angle. For example, in one embodiment the locking means is such that it can locate in the grooves of the discs when they become aligned thereby preventing further rotation of the arms with respect to each other. More preferably, the locking means comprises a stop member that is slidably mounted with respect to the discs of the arms. In a preferred embodiment, the stop member is slidably located within a housing that bridges the arms of the device.
More preferably, the housing is in the general shape of a letter ānā having two legs that lie parallel to the face of the discs and a crosspiece that lies above the top of the discs, each leg having a longitudinal slot for passage of the stop member. The stop member is provided with means for its operation, such as a strap or cable. More preferably still, the stop member is biased towards its lowered or locked position, for example by means of a spring, with the strap or cable being required to pull the member upwardly out of the grooves. The axle upon which the arms are mounted preferably extends between the legs of the housing, being secured thereto by suitable means. A further crosspiece may be provided for attachment of cabling, preferably being situated towards the free ends of the legs of the housing.
It is preferable to provide means for affecting rotation of the cams. More preferably a cable or strapping is attached to each cam to allow manual rotation of the cams. Preferably, the cable is attached to the limb of its respective arm at a point along its length. It is preferable to provide a finger loop in the end of each cable.
The profile of the periphery of the cams may be chosen depending upon the type of surface between which they are to be mounted. For example, cams having a ribbed surface may be used for rock climbing purposes but spices may be provided if the device is to be used for glacier climbing. In the latter case, it is preferable to provide a cover for the spikes, such as a rubber cap.
The climbing aid according to the present invention may be constructed of any suitable materials that provide the requisite strength but with consideration to weight limitations. It is envisaged that steel or other alloys would be used in its construction. Most preferably, the arms are constructed from Aerospace Grade 7075 stem alloy. Preferably, components of the device, such as the arms and cams, are provided with weight-saving holes tberethrough at appropriate locations.
For a better understanding of the present invention and to show more clearly how it may be carried into effect, reference will now be made by way of example only to the accompanying drawings in which:
a and 8b are respectively a perspective and plan view of the central housing for a camming device according to an embodiment of the present invention;
a and 9b illustrate operation of the cams of the camming device according to the present invention;
a to 10d illustrate the steps of installation and removal of a camming device according to the present invention;
Referring to
The structure of the aforementioned camming device will now be described in further detail. Referring in particular to
Two arms are connected together by aligning the discs 24. In this respect, it is to be appreciated that the limbs of the arms 2, 4 extend in opposite directions and the discs 24 are mounted at opposing sides of their respective limb to enable them to abut one another in the assembled device (see, for example,
Referring in particular to
The housing 12 is mounted over aligned discs of the arms and the central axle extends through the upper holes 44 of the housing and through the bores of the discs (see
In this manner the opposing arms 2, 4 of the camming device are pivotally mounted with respect to each other until their respective groove/slots 34 become aligned with each other. Alignment enables the biased stop member 50 to slide down the longitudinal slot 48 to rest in the aligned grooves 34 thereby locking the arms in their extended position.
Additionally, the cams 8 located at the end of each arm are provided with cable or strapping 70 to allow manual rotation of each cam about the spindle. The cable 70 is attached at one point 72 to the base of the limb of the arm 8 and provided with finger loops 74, as illustrated in
The device is constructed of appropriate materials, such as steel or other alloys to provide the necessary strength but with awareness to weight limitations. The preferred material for the arms and cams is Aerospace Grade 7075 stem alloy. Weight-saving holes 90 are provided throughout device, for example in the cams and limbs of arms.
a to 10d of the accompanying drawings provide a step-by-step guide to the use of a camming device according to the present invention. When not in use, the device may be stored on the user's safety harness by means of the loop 56, with the arms 2, 4 in their lowered position (see left band side of
It is necessary to test the device to determine the critical failure angle when the cams will no longer be effective against the rockface. This angle is required for safety guidelines for the product.
The camming device of the present invention enables effective anchorage of a safety climbing rope between rock faces that are in excess of 100 mm apart (around 165 mm apart). This was not possible with the prior art SLCDs. It is envisaged that the device will be made in range of different sizes. Furthermore, the device is user friendly with the insertion of the device between the rockfaces and its removal therefrom being single-handed. The provision of rotatable arms linked by means of the housing results in the device having a self-righting property if the device is placed at an angle, i.e. forces during a fall would straighten the arms, thus applying more load trough the cams to the rockface.
It is to be appreciated that the camming device of the present invention may be adapted for use with structures other than rockfaces. For example, the cams could be provided with spikes 100 around their periphery to enable the camming device to penetrate ice in a similar fashion to crampons (see
Number | Date | Country | Kind |
---|---|---|---|
0510755.2 | May 2005 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/GB2006/001557 | 4/28/2006 | WO | 00 | 11/27/2007 |