G80 Weld On Lifting Point (Weld On Pivoting D Link) Manufacturer

G80 Weld On Lifting Point (Weld On Pivoting D Link)

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BLT085 Rigging Hardware

Working Load Limit 1.12-20t

Pivot 180 degree

The weld on lifting point, with a load capacity of 1.12-20t and 180° pivoting capability, is designed to deliver secure and versatile lifting solutions. These lifting points can be welded directly onto the load surface, either as a reliable lifting point or as a fixed anchor point for spreader beam attachment. They create a permanent and stable lifting point, ensuring exceptional security and reliability for heavy-duty applications.

Inspection and Standards

Successfully passed 1.5x tensile fatigue testing over 20,000 cycles and 2.5x rated load testing for reliability
Verified through magnetic particle inspection to ensure the product is free of cracks
Manufactured in compliance to EN1677-1 standards; certified test reports available upon request

Applications

Transportation: Ideal for lifting and transportation of heavy cargo, oversized components and containers, minimizing errors and reducing the risk of collisions or damage.
Industrial plants: Designed to withstand 20,000 fatigue cycles, it offers exceptional durability, making it suitable for frequent lifting operations in industrial environments. Common uses include lifting industrial compressors, electric motors, boilers, and other heavy machinery.

Key Features

180° pivot range for versatile and precise lifting applications
Work load limit (WLL) of 1.12-20t, designed to withstand demanding heavy-duty operations
Features a 4:1 safety factor and undergoes 100% non-destructive testing for added reliability
High-strength chromium-molybdenum alloy steel ensures exceptional durability and load capacity
Surface coated with epoxy resin electrostatic powder for enhanced corrosion resistance and long-lasting performance
Manufactured to EN1677-1 standards, ensuring compliance with industry quality and safety requirements

Dimension Drawings

Specifications

Item No.	Working Load Limit (t)	Dimensions (mm)										Weight (kg)
Item No.	Working Load Limit (t)	A	B	C	D	F	G	H	HV	W	a	Weight (kg)
BLT085-01	1.12	67	38	41	13.0	68.0	33.0	35.0	5	36	3	0.40
BLT085-02	2.00	70	40	42	14.0	77.0	35.5	41.5	6	38	3	0.47
BLT085-03	3.15	80	43	45	17.5	80.5	39.0	41.5	7	43	3	0.69
BLT085-05	5.30	98	60	54	22.0	97.0	49.0	48.0	8	50	3	1.46
BLT085-08	8.00	124	69	70	27.0	118.0	58.0	60.0	10	66	4	2.50
BLT085-10	10.00	140	75	84	28.0	143.0	62.0	81.0	12	76	4	3.20
BLT085-15	15.00	163	87	95	34.0	155.0	69.0	86.0	15	88	4	5.79
BLT085-20	20.00	239	125	147	46.0	234.5	88.0	146.5	20	124	4	15.50

* Safety factor of 4:1;
* Welding operations must be carried out by qualified welding personnel in accordance with EN287 or AWS specifications;

Working Load Applications

Lifting Method
Number of Sling Legs		1	2	1	2	2		2	3-4		3-4
Lifting Angle		0°	0°	90°	90°	0-45°	45-60°	Asymmetry	0-45°	45-60°	Asymmetry
Item No.	Thread M	Working Load Limit (t)
BLT085-01	1.12	1.12	2.24	1.12	2.24	1.6	1.12	1.12	2.4	1.68	1.12
BLT085-02	2	2.00	4.00	2.00	4.00	2.8	2.00	2.00	4.2	3.00	2.00
BLT085-03	3.15	3.15	6.30	3.15	6.30	4.4	3.15	3.15	6.6	4.725	3.15
BLT085-05	5.3	5.30	10.60	5.30	10.60	7.4	5.30	5.30	11.1	7.95	5.30
BLT085-08	8	8.00	16.00	8.00	16.00	11.2	8.00	8.00	16.8	12.00	8.00
BLT085-10	10	10.00	20.00	10.00	20.00	14.0	10.00	10.00	21.0	15.00	10.00
BLT085-15	15	15.00	30.00	15.00	30.00	21.0	15.00	15.00	31.5	22.50	15.00
BLT085-20	20	20.00	40.00	20.00	40.00	28.0	20.00	20.00	42.0	30.00	20.00

Welding Conditions

Welding operations must be performed by qualified personnel in accordance with EN 287 or AWS standards.
The carbon content of the base material must not exceed 0.4%.
If the ambient temperature is below 10°C, preheating of the surface is required prior to welding.
Welding should not be conducted in open or unfavorable weather conditions.

Welding Methods

Before welding, ensure the contact surface is clean and free of iron filings, grease, oil, paint, slag, or any other contaminants. If the surface is corroded or painted, all rust and paint must be completely removed from the welding area.
Before proceeding to the next weld pass, thoroughly clean the weld bead to avoid slag inclusions.
Once welding begins, avoid interruptions to prevent component cooling.
Conduct a thorough inspection of the welded area to ensure it is free of cracks, depressions, or gouges. If necessary, use non-destructive testing methods such as magnetic particle or liquid penetrant inspections.
If repairs are needed, grind out the defects and follow the appropriate qualified welding steps again.
Avoid rapid cooling of the welded area.