Active climbing cam
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=== Functionality === | === Functionality === |
Revision as of 22:59, 4 February 2007
Contents |
Pre-Dissasembly Phase
User interaction
Inputs
- retraction force from hand
- friction force from rock
- reaction force from rock
Outputs
- force on climbing rope
- force on rock
Function
Spring Loaded Camming Devices
- protect against falls in free or aid climbing
- build removable anchors in rock
- secure a belayer
- mountaineering uses
- mountain rescue
- passive climbing protection
Method of Use
- locate crack
- Identify appropriate size cam unit
- remove cam from harness/chest sling
- grip cam securely
- retract the trigger
- insert in crack, pocket or flake
- find secure placement
- orient the cam with expected direction of force
- retract trigger and remove
- removed either on rappel or by 2nd climber
- replace back on harness or chest sling
Stakeholders
- climber
- rescue workers (mountain rescue)
- insurance companies (health, life & company insurance)
- tourism
- manufacturers
- hospitals
- environment
- retail services
- distributors
Issues associated with use
- having proper size for each type of placement
- dropping the device while climbing
- "walking" in cracks (when device gets stuck in a rock and you cannot remove it)
- with many devices the extra weight is evident
Watch a demonstration video on using a climbing cam that we did in the lab
Part analysis
Manufacture of parts
The climbing cam is a mechanical device composed of 12 different parts.
Part No. | Name | Weight (g) | Qty. | Manufacture method |
---|---|---|---|---|
1 | spring | 0.5 | 2 | |
2 | cam lobes | 7 | 3 | |
3 | body | 45 | 1 | |
3.1 | thick cable | 1 | ||
3.2 | thin plastic tubes | 2 | ||
3.3 | thick plastic tube (orange) | 1 | ||
3.4 | trigger | 1 | ||
3.5 | axle | 1 | ||
3.6 | axle ends | 2 | ||
3.7 | finger support | 1 | ||
4 | spring pin | 3 | ||
5 | trigger wire | 3 | ||
6 | copper connector | 3 | ||
TOTAL | 52.5 | 24 |
Functionality
The climbing cam functions as follows:
First, the 'trigger' is pulled using the index and middle finger towards the 'finger support'. This movement slides the trigger down and pulls the 'trigger wires', which at the same time cause the 'lobes' to rotate around the 'axle'. When the lobes rotate, the 'springs' take action, causing resistance against the rotation of the lobes, trying to bring the lobes back to their initial position; the fingers in the trigger must therefore apply some force to keep the lobes from moving and this is then the cam is inserted in the crack. Once the cam is in place, the trigger can be released, causing the lobes to return to their normal position. Now, the springs are in charge of pushing the lobes against the rock walls inside the crack.
Failure analysis
The climbing cam relies mostly on the correct functionality of the lobes, which are the parts in contact with the rock while the device is in place.