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AS A BELAY DEVICE

The MPD is designed to be used as a belay device to arrest a falling load 
should the Main Line system fail. It is recommended that during edge 
transitions, while either lowering or raising loads, that the Belay Line tension 
be kept hand tight and without slack in the line. Stumbles by the rescuer or 
litter tender(s) are most likely to occur during edge transitions, which may 
result in the ropes being run across edges that can potentially damage or 
cut them. It is less likely to damage both ropes if the Belay Line remains 
untensioned during these transitions. Additionally, greater descent control 
can be achieved if only one rope manages the rate of descent during edge 
transitions.

If the Main Line system completely fails during an edge transition (e.g. 
anchor failure or improper system connection), and if both ropes are 
suspended above the terrain, as when using a high directional, then a 
dynamic fall onto the Belay Line is likely. Among rescuers, this is widely 
recognized as potentially the worst case dynamic event in rescue work. 
While every effort should be made to rig and operate systems to minimize 
the potential for such dynamic events, the MPD is designed and has been 
tested to arrest a 1 m fall onto 3 m of static rope with a rescue-sized load 
and limit the peak force below 15 kN (3,372 lbf) with no more than 1 m 
(3.3 ft) stopping distance (as advocated by the British Columbia Council of 
Technical Rescue Belay Competency Drop Test Criteria). Such a dynamic 
event is severe and warrants that all involved equipment be retired and 
properly disposed of after the operation is safely completed.

BELAYING A LOWERING SYSTEM

When belaying a lowering system, once the rescuer has good control of the 
load and is in the correct descent path (this often occurs within the fi rst 

ALWAYS MAINTAIN A FIRM GRIP ON THE RUNNING END OF THE ROPE 
DIRECTED BACK TOWARD THE ANCHOR IN AN “S-SHAPED” BEND BEFORE 
ENGAGING THE RELEASE HANDLE.

Begin lowering by rotating the handle slowly counterclockwise all the 
way to completely unseat the Moving Brake from the rope, controlling 
the rate primarily with friction on the Fixed Brake V-Groove. Maintaining 
the “S-shaped” bend in the rope will improve the function of the braking 
mechanism in the event it is needed and will increase the service life of 
the Moving Brake, reducing the potential for rope creep through the device.

Load

Anchor

S-shaped bend

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AS A DESCENT CONTROL DEVICE

When used to control a descent, the MPD design allows for easy adjustment 
of the friction for the size of the load, rope type, and environmental and 
terrain conditions. The speed of the descent is controlled by the friction of 
the rope applied against the Fixed Brake V-Groove. Always start with the 
running end held fi rmly back toward the anchor, parallel to the load end. 
Reduce the friction by varying the angle at which the running end enters the 
MPD. Maximum friction is applied when the Secondary Friction Post is used. 

AT NO POINT SHOULD THE RUNNING END OF THE ROPE HAVE AN ANGLE 
OF LESS THAN 90º  TO THE LOAD END OF THE ROPE.

Edge transitions can be the most challenging part of an operation. Using the 
MPD as a descent control device allows for a high degree of responsiveness 
and control. As the rescuer or rescuer and patient approach the edge, it is 
very easy to take in rope through the MPD to prepare for the edge transition. 
Pretensioning of the Main Line is also simplifi ed because of this.

TO LOWER

To lower, fi rmly grip the running end of the rope and tightly hold it against 
the Fixed Brake V-Groove, bringing it back toward the anchor and parallel to 
the load end, creating an “S-shaped” bend in the rope as it passes through 
the MPD. Pass the rope over the Secondary Friction Post for heavier loads if 
needed. Unlock the Parking Brake and then fi rmly grip the Release Handle. 
For the most comfortable hand operating position, before pulling outward on 
the handle, give a slight clockwise turn of the wrist, then pull out to engage 
the release mechanism. 

10 m [33 ft] of the descent), it is recommended to convert from hand-tight 
Belay Line tension to shared tension between the Main Line and Belay 
Line. Should the Main Line system fail from this point on, a Shared Tension 
system will minimize rope stretch and provide a considerably reduced 
arresting distance as compared to a conventional untensioned belay. It 
will also help mitigate other hazards, such as an inadvertently slack Belay 
Line or rope-induced rockfall, since the now-tensioned Belay Line will be 
suspended above the terrain between contact points, just like the Main Line.

SHARED TENSION SYSTEMS

Shared Tension Systems are essentially two lowering systems in place of 
one lowering system and a belay, with each line supporting approximately 
half the load. If either system should fail, the increased load on the other 
descent control device will cause an increase in rate of descent. While the 
MPD is an effective belay device capable of safely arresting a falling load, 
when used as a descent control device you are manually overriding the 
belay function. This could result in increased stopping distances 
if not using proper technique. 

Therefore, in a Shared Tension lower it is imperative that the running end 
rope of the Belay Line be held back toward the anchor, maintaining the 
“S-shaped” bend as the rope runs through the MPD. 

If there is a sudden 

change in speed or tension on the rope running through the MPD, 
the belayer must immediately let go of the Release Handle 
(disengage) while maintaining a fi rm grip on the running end of the 
rope to ensure the braking mechanism activates and arrests the load 
in the shortest distance possible

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YOU MUST LET GO OF THE RELEASE HANDLE WHILE MAINTAINING A FIRM 
GRIP ON THE RUNNING END OF THE ROPE TO ACTIVATE THE BELAY!

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Summary of Contents for MPD 333000

Page 1: ...USER S MANUAL V2 1 Pulley l Rescue Belay l Descent Control MULTI PURPOSE DEVICE PO Box 6870 Santa Barbara CA 93160 6870 USA support cmcrescue com 800 235 5741 cmcrescue com 3330X0 00 041213...

Page 2: ...ure to follow these instructions could result in serious injury or death THIS DEVICE MEETS THE AUXILIARY EQUIPMENT DESCENT CONTROL AND PULLEY REQUIREMENTS OF NFPA 1983 STANDARD ON LIFE SAFETY ROPE AND...

Page 3: ...e Pulling the Release Handle out engages a set of gears connected to the Moving Brake To minimize wear on the Moving Brake it is recommended to turn the handle fully counterclockwise to completely uns...

Page 4: ...nique feature of the MPD is the Parking Brake which when locked prevents inadvertent letting out of the rope The design of the Parking Brake allows for rope to be taken in if required without having t...

Page 5: ...nvert the Belay Line system into a simple 3 1 mechanical advantage Running End Tug on Load End RIGGING THE MPD 6 a fixed position of the friction hand while the other hand feeds rope into the MPD THE...

Page 6: ...ds if needed Unlock the Parking Brake and then firmly grip the Release Handle For the most comfortable hand operating position before pulling outward on the handle give a slight clockwise turn of the...

Page 7: ...over the Secondary Friction Post 1 USING THE MPD AS A DESCENT CONTROL DEVICE ALWAYS MAINTAIN AN S SHAPED BEND IN ROPE 2 Pull up to engage the release mechanism Rotate counterclockwise to lower Load 10...

Page 8: ...the rope controlling the rate primarily with friction on the Fixed Brake V Groove Maintaining the S shaped bend in the rope will improve the function of the braking mechanism in the event it is neede...

Page 9: ...n Running End Load 14 BELAYING A RAISING SYSTEM If the load is being raised then the Belay Line can simply be pulled hand over hand through the MPD However if the distance the load has to be raised is...

Page 10: ...nal information on use of the MPD instructional videos can be viewed at cmcrescue com videos Additionally CMC Rescue School provides comprehensive hands on training for all advanced techniques For que...

Page 11: ...MPD should be thoroughly inspected before being placed in service The MPD is a robust unit but should still be inspected after each use to ensure that damage did not occur When inspecting look for an...

Page 12: ...ock Parking Brake 3 Feed running end of rope into MPD 4 Maintain firm grip on running end to activate belay Belay Shared Tension Systems 1 Hold rope firmly back against Fixed Brake V Groove maintainin...

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