Squid rig plate. Strong and compact, SQUID is a versatile tool for rigging TTRS, litter bridals, cross hauls, and more. Its multi-planar design features a large attachment point for redundant anchoring and two perpendicular points for optimal alignment. SQUID’s multi-planar design includes a primary collection point for redundant anchoring and two secondary points set at 90 degrees for optimal device alignment and load-sharing. Its secondary points SQUID promotes safe and efficient rigging of dual capacity TTRS and provides smooth raising and lowering in mirrored and nested systems. SQUID promotes safe and efficient rigging of dual capacity TTRS and provides smooth raising and lowering in mirrored and nested systems. SQUID also sets ideal spacing between devices, allowing a SQUID is an innovative solution for twin tension rope systems (TTRS) and load-sharing applications. Its multi-planar design optimizes device alignment, promotes smooth raising and lowering, and enables single operator control for better shared tension. Versatile, strong, and compact rigging plate with multi-planar attachment points for easy load sharing and rapid rigging of twin-tension rope systems, litter bridals, and other applications. SQUID is an innovative solution for twin tension rope systems (TTRS) and load-sharing applications. SQUID is an innovative solution for twin tension rope systems (TTRS) and other load-sharing applications. SQUID also sets ideal spacing between The CMC Squid rigging plate is designed to replace a traditional flat rigging plate and the use of the twisted DNA carabiners (Ovalones) to connect to CMC Clutches or other hauling/lowering devices. SQUID efficiently brings two hardware devices side-by-side for dual operation and better shared tension. Using a rig plate assists with cleaner operations by spacing out components and making each part easier to assess. CMC SQUID Rig Plate SQUID is a simple and effective solution for building G-Rated twin tension rope systems (TTRS). The SQUID’s multi-planar secondary attachment points have the added benefit of aligning multiple devices and separate lines in distinct order, keeping them orderly and easy to control. Its multi-planar design features a large attachment point for redundant anchoring and two perpendicular points for optimal load-sharing. SQUID simplifies the technique of bringing two devices together for side-by-side operation. The SQUID’s attachment points allow SQUID provides an innovative solution for rigging G-Rated twin tension rope systems (TTRS). SQUID naturally orients toward the load and lets components move freely, reducing the risk of binding and shifting in the event of anchor or line failure. SQUID efficiently brings two hardware devices side-by-side for dual operation and bett CMC SQUID Rig Plate is an innovative solution for twin tension rope systems (TTRS) and load-sharing applications. SQUID streamlines the rigging of redundant load-sharing systems. Strong and compact, SQUID is a versatile tool for TTRS, litter bridals, cross hauls, and more. The CMC Pro SQUID Rig Plate is an innovative solution for twin tension rope systems (TTRS) and load-sharing applications. SQUID also sets ideal spacing between devices, allowing a CMC SQUID Rig Plate SQUID is an innovative solution for twin tension rope systems (TTRS) and load-sharing applications. With the CMC Squid, you can connect to your Clutches or other hauling/lowering devices using traditional carabiners, and the alignment of the clutches will be vertical to make using the levers much The CMC SQUID Rig Plate features a multi-planar rigging plate with perpendicular attachment points that support a variety of connection methods. SQUID naturally orients toward the load and lets components move freely, reducing the risk of binding and mitigating extension in the event of anchor or line failure. SQUID simplifies the technique of bringing two hardware devices together for side-by-side operation. SQUID™ Rig Plate SQUID is an innovative solution for twin tension rope systems (TTRS) and load-sharing applications. . uxjeo wgwnln ztfpqjfa idx ohpqzu tchu zoni xyt nbqaj tzhzg