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The document provides information on Series 2, 3, 4, & 5 Aluminum straight sections and accessories for cable tray systems, including a color-coded selection chart for lead times. It outlines specifications for load capacity, safety factors, and design factors for the trays. Additionally, it emphasizes the importance of proper support and the impact of continuous spans on deflection reduction.
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Save 24 Series B-line For Later Series 2, 3, 4, & 5 Aluminum - Straight Sections
Eeion MW Bilin sories Cable Tay Systems�Series 2, 3, 4, & 5 Aluminum - Accessories
SS att
L- thru L-17
Works
We know that your time is important! That's why the color-coding system in this catalog is designed to help you
select products that fit your service needs. Products are marked to indicate the typical lead time for orders of 50,
pieces or less.
Customer: How do I select my straight sections. covers, or fittings so that | get the quickest tuaround?
Service Advisor: Each part of aur selection chart is shown in colors, If any section of a part number is a different
color, the part will typically ship with the longer lead time represented by the colors.
© Groen = Fastest shipped items
@ Black = Normal lead-time items
Normally long lead-time items
Example: MA VT 24 - 148 Part will have a normal
ee e@ e lead time because of the
VT bottom type.
B-Line series Cable Trey Systems 12
uunuwunry § 7 “y ‘eZ seu9S�Series 2, 3, 4, & 5 Aluminum - Straight Sections
3" NEMA VE 1 Loading Depth
4" Side Rail Height
Straight Section Part Numbering
Pref
Example: 24 A 09- 24-144
Series Material “Width
@ A= Aluminum eu-c © on
e098 @aiz-t0n
ew .
eH2s Hea
ow °
em °
e350 ° a
© 36-36"
© Primary Length.
@ Secondary Length.
See page C-23 for
explanation of lengths.
Ladder Type Solid Bottom
(Spocify Rung Spacing)
(© Groen = Fastest shipneditems @ Black = Normal lesdsime items @ Fes = Normally long lead-time items
All dimensions in parentheses are milimeters unless othenw/se specieg
Eeion 1 Bilin sories Cable Tay Systems�Series 2, 3, 4, & 5 Aluminum - Straight Sections
NEMA VE 1 Loading Depth
4" Side Rail Height
Values are based on simple bear tests per NEMA VE 1 on 26" wide eable tray with rungs spaced on 12" centers. Cable ays wil
sunport without collapse a 200 Ia 190.7 ka) eoneentrated load over and above published loads. Published load safety factor i 15,
To convert 1.5 safety factor to 2.0, multiply the published load by 0.75, To obtain midispan deflection, multiply aload by the daflection
‘multiplier. Cable tray must be supported on spans shorter than oF equal othe length of the cable tray being installed,
Individual rungs will support without colapse 2 200 Ib (90.7 kg) concentrated lead applied at the mis-span ofthe rung, over and above
the NEMA rated cable load with a 1.5 safety factor fr highlighted NEMA spans and loads.
Biline | SideRail | NEMA,CSA&UL | Span Load Deflection Design Factors| Span Load Deflection Design Factors,
Series Dimensions Classifications | ft__Ibs/ft_Multiplier for Two Rails _meters_kg/m Multiplier _for Two Rails
== | NEMA 164,120 | 67) 487") O0OT 18 72s") 0017
lCSA:27kgim30m| 8 | 284 | 0.003 | ea 105i | 24 422 | 0055 Area =6.77 env
a | | am { 03m 40) //1at ooo] “Se= 138i |//3.0N | 27D" 0.196) x= 21.96 om
ULCossSeciond | 12 128 | 0016 | k=285in | 37 187 | 0279 | k=118630m
‘wea 100%m | 14 | 93/0030 | 43) 138 | oste
= 161 00s 49105 | os
\Whan trays are used in continuous spans, the deflection ofthe tray is reduced by as much as 60%.
Design factors: k'= Moment of Inerta, x = Section Modulus.
* When using TE" rung spacing, load capacty is limited to 394 tbft (586.27 kgf for 20" tray with and
325 Inst 48.6 kgf for 36" trey width
Bline | Side Rail
‘Span Load Deflection Design Factors | Span Load Deflection Design Factors
Dimensions Classifications ft Ibs/ft__Multiplier for Two Rails meters _kg/m Multiplier for Two Rails
“=F | _ NEMA208 J IO] 225-0008 30) 300) 0106
TTI Jeseetigmeim| 12 135 cots seas tse | 37 | 225 | 0222 | Aca = 88zen
a an| Dm Wass 0gea “See trie 43 ATT 0ag0 | Sx= 2573em
“ | UL Cross-Sectional | 16 88 0.040 b 69 ine 49 129 0.693 Ix = 183.59 cme
eae ite [estefan jeboat $s) ae) so
= 2 | $5 0% 6) | | tae
\Whan trays ae used in continuous spans, the deflection ofthe tray i reduced by as much as 60%. Design factors: k = Moment
of Inara, Sx = Section Medulus,
Biine Side Rail NEMA,CSA&UL | Span Load Deflection Design Factors| Span Load Deflection Design Factors
Dimensions Clastfeations for Two Rais for Two ale
SLE | REWA:208, 166 J TIO) a2) 000s 30) «76 007
| os tr2igmeon| 12 72 oon a7 | xr | oe
5 =| om 14s) tea) 0017 430/20 |) 0295
ao I UL Cross-Sectional | 16 125, 0.030 49 186 0.505 | ik = 207.28 crm
wes 150i | 18) 99 | 0047 551470810
2% | 007 er |g | zm
\When tava ore used in eantinuous apane, the deflection of the tray a reduoed by 6a much ae 60%. Design fectora: k= Moment
of Inara, Sx = Section Modulus
All dimensions in parentheses are milimeters unless otherwise snectad
B-Line series Cable Tray Systems La Eaton
