SMC Networks Vector User manual
EDGE & LOAD MANAGEMENT SYSTEM
MADE IN USA
USER INSTRUCTION
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© 2018 SMC
VECTOR
EDGE & LOAD Management System
Table of Contents
1. Introduction 2
2. Assembly Instructions 4
3. WARNINGS 6
4. working loads 8
5. set-up information 8
6. warranty 16
7. Replacement Parts 17
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© 2018 SMC © 2018 SMC
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Introduction
PRODUCT OVERVIEW
The Vector Edge and Load Management System has been designed and engineered as a light-
weight and portable tool for use in industrial, mountain and urban rescue environments. When
combined with high strength - low stretch cord, quality life-safety rope, lightweight pulleys and
carabiners, the Vector provides rescuers with a versatile resource which can reduce risk and go
virtually anywhere.
T V .
This innovative monopod system is the result of a collaboration between SMC and our expert
training partners. This combination of SMC’s 50 years of experience in design, testing and
manufacturing of technical rescue equipmentand our partners’ experience in training advanced
rescue techniques throughout the world has created a 3lb. solution to edge transition scenarios.
BEFORE USE
The techniques employed in the proper and safe use of this equipment may only be learned
through hands-on instruction received from an instructor who is well-qualied in all phases
of vertical rope work. Such instruction will include an evaluation of your comprehension of,
and ability to perform, the tasks required to safely and eciently use this equipment. Never
attempt its use until you have received such instruction and are believed competent by your
instructor.
This User Instruction is designed to aid in the assembly and safe use of the Vector Edge and
Load Management System. It is not designed to provide the user with the theory or practice of
using portable anchor systems, monopod or other high directionals, as this comes only from
extensive training from qualied trainers on such systems. Do not attempt to use the Vector
without specialized training as mis-use could lead to serious injury or death.
INSPECTION FOR USE
Inspect the VECTOR visually for cracks, deformation, corrosion, scratches or gouges, sharp
edges or rough areas that could abrade a rope or aect the integrity of the VECTOR. Compare
this Vector with a new model if necessary to determine its condition. Remove from service if
there is any doubt about its safety or serviceability. The following inspection points indicate
conditions that may aect safety or serviceability of the Vector:
TUBE
1. Inspect for lack of straightness
2. Inspect for dings, dents and gouges to the wall or ends of the tube
3. Inspect inside tube for any debris and remove accordingly
4. Inspect for fouled threads which might impair assembly
ROPE HORN
1. Inspect for excessive rope wear
2. Inspect for fouled threads which might impair assembly
3. Inspect for gouges which might create surfaces that could damage rope or webbing
4. Inspect for deformation of top or bottom flanges which might impair assembly
RIGGING PLATE
1. Inspect for deep gouges and sharp edges caused by rope wear or hardware
2. Inspect center ring for deformation which might prevent attachment to the rope horn
3. Inspect for being bent or out of flat
BALL FOOT AND SPIKE FOOT
1. Inspect spike to ensure steel tip is present and inspect for any cracking or bending
2. Inspect for fouled threads which might impair assembly
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REMOVAL FROM SERVICE
This VECTOR should be removed from service if it has been dropped, or exposed to heat
sucient to alter the surface appearance, or if deformation of any part is apparent, or if any
cracks are apparent, or if it has scratches or gouges of more than a supercial nature.
MAINTENANCE AFTER USE
Carefully clean and dry this VECTOR to remove all dirt or foreign material and moisture. Minor
sharp edges may be smoothed with a ne abrasive cloth before cleaning. Store in a clean, dry
place.
WARNING:
DAMAGE TO THE WALL OF THE TUBE CAN SEVERELY AFFECT STRENGTH. INSPECT FOR DAMAGE
BEFORE EVERY USE. TUBES WHICH APPEAR TO BE BENT OR DEFORMED, HAVE DENTS, DINGS
AND DEEP GOUGES SHOULD BE REMOVED FROM SERVICE IMMEDIATELY AS THEY COULD BE
STRUCTURALLY COMPROMISED.
The cost to inspect and repair a VECTOR that appears damaged, or that may have been damaged
by impact loading or other abuse, will exceed the cost of its replacement with a new part.
RECORDS
It is suggested that the user of this VECTOR keep a permanent record listing the date and results
of each usage inspection. Such record should show, as a minimum, inspection for all of the
following conditions:
• Cleanliness
• Dryness
• Freedom of bends or deformation
• Freedom from scratches, gouges and sharp edges
• Freedom from corrosion
• User Information sheet present
USE OF THIS USER INFORMATION SHEET
It is suggested that this User Information sheet be retained in a permanent record aer it is
separated from the VECTOR, and that a copy of it be kept with the VECTOR. It is suggested that
the user refer to this User Information sheet before and aer each use of the VECTOR.
LIFESPAN
The service life the VECTOR is largely dependent on the type of use and the environment in
which it is used. Under moderate use, with limited exposure to moisture, salt water, corrosive
agents, excessive loads, shock loading and excessive wear, the VECTOR may last many years.
However, many events such as dynamic loading, dropping, or other events which cause
physical damage, can reduce the lifespan of this VECTOR dramatically.
You must inspect your VECTOR frequently and take personal responsibility for evaluating its
condition and retiring unsafe gear. Inspection is extremely important, but visual inspection
only will not assure that damage has not occurred. If history of the VECTOR is unknown or if
based on the history of the use of this VECTOR there is any doubt regarding its safety, it should
be removed from service. You should destroy retired gear to prevent future use.
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© 2018 SMC © 2018 SMC
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Assembly Instructions
The Vector Edge and Load Management System is designed for use in a single tube, one meter
conguration and requires no tools for assembly. The standard kit ships complete with a Vector
Tube, two Vector Rigging Plates, two Rope Horns, one Spike Foot one Ball Foot and this User
Instruction.
NOTE: Guy lines for rigging are not included but are required for a stable monopod. The Vector
was designed to work best with high tenacity, low stretch, small diameter cord.
STANDARD SINGLE TUBE METER ASSEMBLY
1. Place rst Vector Rigging Plate on Vector Rope Horn and thread into one end of the Vector
Tube. Tighten until “hand-tight.” Ensure that Vector Rigging Plate can spin freely.
2. Thread Vector Ball Foot in to the Vector Rope Horn until “hand-tight.”
3. Place other Vector Rigging Plate on Vector Rope Horn and thread into the other end of the
Vector Tube. Tighten until “hand-tight.” Ensure the Vector Rigging Plate can spin freely.
4. Thread Spike Foot in to the Rope Horn until “hand-tight”(as required by terrain).
VECTOR ROPE HORN & VECTOR RIGGING PLATE
The Vector Rope Horn and the Vector Rigging Plate have been designed to work in conjunction
to minimize hardware by looping a bight of webbing, cord or rope through the rigging plate and
over the horn (see images below as reference). The Vector Rigging Plate and the Vector Rope
Horn are the only components that should be connected to rigging. The Vector Rigging Plate
has been designed to rotate and center itself between the guy lines and rigging to prevent any
torque from being imparted to the Vector. The Vector Rigging Plate may be used independently
as a rigging plate.
WARNING
• The Rope Horn is intended to connect only to the Spike Foot and Ball Foot. Any other use
is prohibited and will void the warranty
• Inspect threads for dings which might create resistance when threading on main tube
• Inspect for gouges which could damage cord or webbing used in rigging or guy lines
• If using the Vector Rigging Plate independently, DO NOT clip any carabiners through the
center hole because it could cause damage to the interface with the Rope Horn
Pro Tip
ROPE/CORD/WEBBING
Step 1: Tie a gure 8 on a bight.
Step 2: Slip the bight up through a perimeter hole in the Vector Rigging Plate from
the bottom.
Step 3: Slip the bight over the Vector Rope Horn.
Step 4: Pull on rope, cord or webbing to assure the webbing, cord or rope is secured
and captured by the Rope Horn.
WEBBING SLING/ PRUSIK LOOP
Step 1: Slip a loop of webbing or prusik through one of the perimeter holes in the Vec-
tor Rigging Plate from the bottom.
Step 2: Slip the loop over the Vector Rope Horn.
Step 3: Slide the free end of loop through the pulley or other hardware.
Step 4: Slip the loop through the perimeter hole in the Vector Rigging Plate from the
bottom.
Step 5: Pull on loop to assure the hardware and loop are secured and captured by the
Rope Horn.
WARNING
• If attaching a pulley with a so shackle, only use
pulleys designed for that application
RIGGING PLATE
RIGGING PLATE
TUBE
ROPE HORN
ROPE HORN
BALL FOOT
SPIKE FOOT
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© 2018 SMC © 2018 SMC
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VECTOR SPIKE FOOT
The Vector Spike Foot is equipped with a hardened steel tip ideal for placement in so or
compact soil, hard rock, concrete and pavement.
BALL FOOT
The Vector Ball Foot provides a wide footprint for environments which require maximum surface
area on the ground. This provides better flotation over so materials and is less likely to
damage flooring, roong and other surfaces.
WARNING: Damaging the threads may make the system UNSAFE and dicult to assemble
WARNINGS
The Vector Edge and Load Management System is fabricated from thin-walled aerospace-grade
aluminum tubing that isvery strong along the main axis but signicantly less resistant to lateral
loads. Users must ensure that lateral loads not be introduced to the tubing while the system is
under load. Likewise, any damage to the Vector Tube can act as a weak point that can initiate
compression failure in the tube during a dynamic event. Users must inspect the Vector before
and aer every use to ensure that the Vector Tube is free from any damage.
T V .
WARNING:
DO NOT lash rope or webbing to any
part of the Vector Tube
WARNING:
DO NOT rig the Vector such that the
rigging ring is in contact with the
ground or any other obstructions
WARNING:
DO NOT allow Vector Tube to make
contact with any physical structure
WARNING:
DO NOT use as a horizontal beam
anchor or stemple
WARNING:
DO NOT grab, hold or move the Vector
while under load
WARNING:
DO NOT use as a Davit
WARNING: Only load the Vector in
compression. DO NOT subject to
tensile loading.
KEY
Recommended
Use Caution
Prohibited
These warnings do not represent every possible misuse scenario. The User is responsible for
rigging the Vector safely.
Pro Tip
The Vector Spike Foot can be threaded into the inside the Rope Horn
for secure storage when not in use.
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© 2018 SMC © 2018 SMC
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WORKING LOADS
The Vector Edge and Load Management System has been through extensive lab and eld
testing. Listed below are Working Load Limits (WLL) for the two congurations approved for
use. SMC does not approve of any congurations not identied in this manual.
SET-UP INFORMATION
This section is provided for information only and is not a substitute for proper training.
The Vector Edge and Load Management System can be set up in two dierent modes: High
Directional Conguration and High Anchor Conguration.
An ideally-rigged High Directional Conguration will have the resultant of the main line in line
with the pole so that the guy lines take little or no load and the pole resolves all of the forces.
An ideally-rigged High Anchor Conguration will have a resultant that is straight down and will
rely on a combination of the rear guy line and and the pole to resolve the forces.
The strength of any particular High Directional or High Anchor Conguration is highly
dependent upon the rigging. Pole angle, guy angles and resultant angles interact in a complex
way that can potentially create signicant forces on anchors, especially with High Anchor
Congurations. On the following pages, we have provided a series of Load Scenarios that
illustrate how the geometry of the rigging aects loads on the system components.
RESULTANT
HIGH
DIRECTIONAL
CONFIGURATION
RESULTANT
HIGH ANCHOR
CONFIGURATION
CONFIGURATION RATING
Single Tube 1-Meter High Directional 2 kN WLL (448 lbf)
Single Tube 1-Meter High Anchor 1 kN WLL (224 lbf)
Vector Rigging Plate (used independently) 36 kN MBS (8000lbf)
1 kN 1 kN
0 N·m
Plane of
Vector
Resultant 2 kN
1 kN
1.85
kN
1 kN
45°
Plane of
Vector
541 N·m
Resultant
WARNING: When using the Vector in High Anchor Conguration, always keep the resultant of
the load in the plane dened by the Vector. Out-of-plane loads may cause the Vector to fail.
HIGH ANCHOR CONFIGURATION
45° POLE, 45° REAR GUY
(front view)
TWO TENSIONED ROPE SYSTEM
HIGH DIRECTIONAL CONFIGURATION
45° POLE, 90° INCLUDED ANGLE
(front view)
HIGH ANCHOR CONFIGURATION
45° POLE, 45° REAR GUY
(front view)
SINGLE ROPE SYSTEM
HIGH ANCHOR CONFIGURATION
45° POLE, 90° INCLUDED ANGLE
(front view)
1 kN 1 kN
0 N·m
2 kN
110 N·m
BENDING MOMENT FORCES
Eccentric loading (forces not in the plane dened by the Vector Tube) will impart bending
moment forces to the Vector Tube that could cause the tube to buckle in a dynamic event. It is
recommended that the user minimize eccentric loading whenever possible. A two tensioned
rope system with one rope on each side of the Vector is one example that can reduce the
possibility of eccentric loading.
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© 2018 SMC © 2018 SMC
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HIGH DIRECTIONAL CONFIGURATION
STATIC LOAD SCENARIOS
Loads are 2 kN for all High Directional scenarios.
These load scenarios are provided for information
only and are not a substitute for proper training.
-15°
RESULTANT
+15°
RESULTANT
ALIGNED
RESULTANT
0.90 kN
3.46 kN
0 kN
0 kN
0 kN
2 kN
2 kN
2 kN
2 kN
2 kN
0 N·m
220 N·m
2.45 kN
1.39 kN
4.41 kN
1.73 kN
0 kN
220 N·m
15°
15°
4.41 kN
1.39 kN
0 kN
0 kN
0 kN
0 kN
1.41 kN
3.6 kN
3.6 kN
15°
1.14 kN
1.14 kN
2.83 kN
2 kN
2 kN
2 kN
2 kN
2 kN
2 kN
2 kN
0 N·m
180 N·m
180 N·m
2.45 kN
15°
45° POLE, 90° INCLUDED ANGLE 60° POLE, 60° INCLUDED ANGLE
0 kN
0 kN
2.83 kN
2 kN
2 kN
2 kN
0 N·m
Included
angle
Force vector
(area of arrow is
proportional to
magnitude of vector)
Anchor
Pole
angle
Rear guy
angle
Front guy
angle
Front tie
Main line
Rear guy
Front guy
Bending
moment
KEY
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© 2018 SMC © 2018 SMC
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2.83 kN
2 kN
2 kN
1.96 kN
1 kN
1 kN
1 kN
1 kN
1 kN
1 kN
3.57 kN
3.23 kN
4.77 kN
1.45 kN
194 N·m
87 N·m
0 N·m
1.6 kN
0 N·m
2 kN
2.5 kN
1 kN
1 kN
1 kN
1 kN
1 kN
1 kN
2.87 kN
4.47 kN
4.88 kN
2 kN
351 N·m
109 N·m
2.45 kN
1.37 kN
2.27 kN
70° REAR
GUY
45° REAR
GUY
20° REAR
GUY
20° POLE 45° POLE
HIGH ANCHOR CONFIGURATION
STATIC LOAD SCENARIOS
Loads are 1 kN for all High Anchor scenarios.
These load scenarios are provided for information
only and are not a substitute for proper training.
2.83 kN
2 kN
2 kN 1 kN
1 kN
0 N·m
Force vector
(area of arrow is
proportional to
magnitude of vector)
Anchor
Pole
angle
Rear guy
angle
Front tie
Rear guy
Bending
moment
KEY
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© 2018 SMC © 2018 SMC
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0.52 kN
(DOUBLE GUY)
0.52 kN
(DOUBLE GUY)
0.64 kN
(DOUBLE GUY)
0.64 kN
(DOUBLE GUY)
60°
90°
120°
0.9 kN
(SINGLE GUY)
0.9 kN
(DOUBLE GUY)
0.9 kN
(DOUBLE GUY)
1.16 kN
(DOUBLE GUY)
1.16 kN
(DOUBLE GUY)
1.42 kN
(DOUBLE GUY)
1.42 kN
(DOUBLE GUY)
2 kN
(SINGLE GUY)
2 kN
(DOUBLE GUY)
2 kN
(DOUBLE GUY)
2.58 kN
(DOUBLE GUY)
2.58 kN
(DOUBLE GUY)
3.16 kN
(DOUBLE GUY)
3.16 kN
(DOUBLE GUY)
4.47 kN
(SINGLE GUY)
4.47 kN
(DOUBLE GUY)
4.47 kN
(DOUBLE GUY)
60°
90°
120°
60°
90°
120°
HIGH ANCHOR CONFIGURATION
REAR GUY STATIC LOAD SCENARIOS
(Top view)
70° POLE
70° REAR GUY
45° POLE
45° REAR GUY
20° POLE
20° REAR GUY
2 kN
1 kN
1 kN
1 kN
1 kN
1 kN
1 kN
3.76 kN
1.12 kN
2.67 kN
0.9 kN
0.58 kN
2.19 kN
2 kN
1.02 kN
0 N·m
157 N·m
109 N·m
70° POLE
70° REAR
GUY
45° REAR
GUY
20° REAR
GUY
HIGH ANCHOR CONFIGURATION
STATIC LOAD SCENARIOS (cont’d)
Loads are 1 kN for all High
Anchor scenarios.
These load scenarios are
provided for information
only and are not a substitute
for proper training.
NOTE: Using two rear guys will improve stability
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© 2018 SMC © 2018 SMC
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Warranty
Standard SMC warranty policy applies to the Vector and its component parts:
LIMITED WARRANTY: SMC products are warranted to the original purchaser in accordance with
the full Statement of Limited Warranty printed on our web site, www.smcgear.com/warranty.
Service under this warranty is available by contacting us by mail, email or phone. All items
that are claimed to be defective must be returned under a pre-assigned CC Number and should
include a detailed description of the conditions existing during use of the item as well as the
place and date of the original purchase and a copy of the original invoice or receipt. Include
contact information.
Due to the complexity of the Vector, if one of the main components of the system appears to
be damaged, the entire system is suspect and must be inspected by the manufacturer. As a
result, replacement parts for these components are not available without rst sending them to
SMC for inspection.
If during inspection the parts are determined to be damaged as a result of a manufacturer
defect, the necessary part(s) will be replaced at no cost to the end user. If the manufacturer
determines that the damage is due to misuse, overloading, unsafe congurations or neglect,
the replacement part(s) may be made available to the user at user’s cost. Any parts deemed
unsafe will not be returned to the user.
Warranty Registration Information
Name:
Address:
Phone:
Email:
Purchase Date:
Purchased From:
Manufacturer Lot Number (MLN):
See below for an Inspection and Maintenance Log Example.
Item Qty Date Inspected By Findings Safe for Use
Vector Main Tube
Vector Rigging Plate
Vector Rope Horn
Vector Ball Foot
Vector Spike Foot
Replacement parts
REPLACEMENT PARTS
PN 290023 Vector Tube
PN 290043 Vector Rope Horn
PN 290053 Vector Rigging Plate
PN 290063 Vector Spike Foot
PN 290083 Vector Ball Foot
PN 290010 Vector Edge and Load Management Sytem Kit
6930 Salashan Parkway
Ferndale, WA 98248
800-426-6251 | www.smcgear.com
290019
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