Double-Leg Swaged Sling Assembly
Product Description
Double-Leg Swaged Sling Assembly
- Dawson Group Ltd. - China Manufacturer, Supplier, Factory
| Rope dia.(mm) | Working load limit(KN) α≤90° | Working load limit(KN) 90°≤α≤120° | Loop Dimension A x B x D(mm) | Dimension of hook opening C(mm) |
| 6 | 4.10 | 2.90 | 110 x60 x14 | 24 |
| 8 | 6.90 | 4.90 | 110 x60 x14 | 24 |
| 10 | 11.00 | 7.90 | 110 x60 x16 | 25 |
| 12 | 16.50 | 11.80 | 110 x60 x16 | 25 |
| 14 | 22.00 | 15.70 | 135 x75 x18 | 27 |
| 16 | 30.00 | 21.60 | 135 x75 x18 | 30 |
| 18 | 37.00 | 26.50 | 160 x90 x22 | 38 |
| 20 | 45.00 | 32.40 | 160 x90 x22 | 38 |
| 24 | 68.60 | 49.00 | 180 x100 x26 | 45 |
| 28 | 96.00 | 68.60 | 200 x110 x32 | 61 |
| 32 | 123.60 | 88.30 | 260 x140 x36 | 66 |
| 38 | 165.00 | 117.70 | 300 x160 x40 | 87 |
| 40 | 185.00 | 132.40 | 340 x180 x45 | 87 |
| 44 | 206.00 | 147.00 | 340 x180 x45 | 87 |
| 52 | 302.40 | 216.00 | 350 x190 x50 | 102 |
| 56 | 359.80 | 257.00 | 400 x200 x56 | 107 |
| 64 | 469.00 | 335.00 | 430 x220 x63 | 121 |
| 70 | 560.00 | 400.00 | 460 x250 x72 | 146 |
Note:
1.The steel wire ropes are 1670N/mm2 fiber core type.
2."L" value meets client requirements.
Hitches
1. Vertical- The Vertical, or straight, attachment is simply using a sling to connect a lifting hook or other device to a load. Full rated load of the sling may be used, but never exceeded. A tagline should be used on such a lift to prevent rotation, which can damage the sling. A wire rope sling with a hand-tucked splice can unlay and fail if the sling is allowed to rotate.
2. Choker- Choker Hitch configurations reduce the rated capacity of a sling by 20 to 25 percent. If a load is hanging free, the normal choke angle is approximately 135°. When the choke angle is less than 120°, an adjustment in the choker rated capacity must be made(see illustration below). Extreme care should be taken to determine the choke angel as accurately as possible. As indicated in the table below, the decrease in rated capacity is dramatic.
Choker Hitch
RATED CAPACITY ADJUSTIMENT
Choke IWRC and Fiber Core Rope
Angle Percent of
(Degrees) Choker Rated Capacity
Over 120 100
90-120 87
60-89 74
30-59 62
Up to 29 49
Angle Adjustment
Rated capacity adjustment for slings in choker hitch when angle is less than 120°. Choke angles greater than 135° are unstable and should not be used.
3. Basket- Basket hitched distribute a load equally between the two legs of a sling, within limitations imposed by the angles at which legs are rigged to the load(see discussion of sling angles).
Basket Hitch
CAPACITY ADJUSTMENT
Angle Percent of Single Leg
(Degrees) Capacity
90 200
60 170
45 140
30 100
Angle
A basket hitch has twice the capacity of a sling leg only if legs of sling are vertical, and only if D/d ratio is 25:1 and it is vertical. D/d>25:1 per ANSI B30.9.
WARNING: Do not use, or allow the use of the products in this catalogue, unless the user has read and understands the applicable instructions and product warnings. Information available upon request.
Reeving
Revving through connections to load increases load on connections fitting by as much as twice.
Do not reeve.
Triple and Quad Leg Slings
Triple leg slings have 50% more capacity than double leg only if the center of gravity is in center of connection points and the legs are adjusted properly(equal share of the load)
Quad leg slings offer improved stability but do not provide increased lifting capacity.
Center of Gravity(COG)
The location of the center of gravity to the pick points is an important consideration.
COG and Sling Loading
When lifting vertically, the load will be shared equally if the center of gravity is spaced equally between the pick points, as in the first illustration at right. If the weight of the load is 10,000 lbs., then each sling will have a load of 5,000 lbs. and each shackle and eyebolt will also have a load of 5,000 lbs.
When the center of gravity is not equally spaced between the pick points, as in the second illustration, the slings and fittings will not carry an equal share of the load. The sling connected to the pick point closest to the center of gravity will carry the greatest share of the load. Sling 2 is closest to COG. It will have the greatest share of load.
Sling 2 = 10,000 × 8 /(8+2)= 8,000
Sling 1 = 10,000 × 2 /(8+2)= 2,000
WARNING: Do not use, or allow the use of the products in the catalogue, unless the user has read and understands the applicable instructions and product warnings. Information available upon request.
Sling Angle
Sling angle (also called angle of loading) is the angle measured between a horizontal plane and the sling leg or body. This angle is very important and can have a dramatic effect on the rated capacity of the sling (see illustration below) . As illustrated at right, when this angle decreases, the load on each leg increases. This principle applies whether one sling is used to pull at an angle, in a basket hitch, or for multilegged bridge slings. Sling angles of less than 30° shall not be used.
Angles and Load
Angles and Load
Angles and Stress
How do you carry two buckets of water? These illustrations typify the stresses imposed on slings when the legs are attached to the load at various angles.
Load Angle Factor
Sling Angle Load Angle
Degrees(A°) Factor =L/H
90 1.00
60 1.155
50 1.305
45 1.414
30 2.00
LOAD ON EACH LEG OF SLING=
(Load/2)×LOAD ANGLE FACTOR
ANSI B30.9 recommends against the use of a horizontal sling angle smaller than 30°.
WARNING: Do not use, or allow the use of the products in the catalogue, unless the user has read and understands the applicable instructions and product warnings. Information available upon request.
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