Ratchet type Load Binder without Link or Hook RLBW type

Item No.: 411002
H-Lift Ratchet type Load Binder without Link or Hook RLBW type
Ratchet type load binder without link or hook is used for tensioners with chain lashing on transportation.
Description Safe Use of Load Binder and Chain Lashing

H-Lift Ratchet type Load Binder without Link or Hook RLBW type

  • Ratchet type load binder without link or hook is used for tensioners with chain lashing on transportation.
  • Ratchet type load binder is made from alloy steel, drop forged, quenched & tempered, easy operation of these load binders makes these favorite amongst chain lashing systems.
  • Ratchet binders utilize a screw or rotating motion to tighten and secure loads. Ratchet binders tighten slower but are easier to operate than lever-type load binders. They also do not require a handle to lock in place to ensure the binder stays tightened.
  • Ratchet type load binder without link or hook is a safe and durable load binder available for your heavy load work. This load binder can handle loads up to 13000lbs with ease and is designed for use with ⅝” chains. 
American type Ratchet Loadbinder
ratchet loadbinder without hooks
European Standard Loadbinder EN 12195-3

Item No. Min-Max Chain Size Working Load Limit Proof Load Minimum Ultimate Load Weight Handle/Length Dimensions (inch) Product Code
inch lbs lbs lbs lbs inch A B C E E1 F
RLBW10 5/16-3/8 5400 10800 19000 7.8 13.42 13.92 1.3 2.6 13.7 21.7 0.79 411002038
RLBW13 3/8-1/2 9200 18400 33000 7.8 13.92 13.92 1.3 2.6 13.7 21.7 1.02 411002012
RLBW16 1/2-5/8 13000 26000 46000 8.5 13.92 13.92 1.3 2.6 14.17 22.17 1.02 411002058

Safe Use of Load Binder and Chain Lashing

A ratchet type load binder is a mechanical device used to secure cargo or loads on trucks, trailers, or other transportation vehicles. It is also known as a ratchet binder, cargo binder, or load tensioner.

The ratchet binder consists of a ratcheting mechanism with two hooks at each end. One end is connected to the anchor point on the truck or trailer, while the other end is connected to the load. The ratchet mechanism is used to tighten the binder, creating tension on the load and securing it in place.

The advantage of using a ratchet binder over other types of load binders is that it allows for greater control over the tension applied to the load. The ratcheting mechanism makes it easy to adjust the tension as needed and to release the binder when the load needs to be unloaded.

However, it is important to use the ratchet binder properly to avoid over-tightening and damaging the load or the equipment. It is also important to inspect the binder regularly for signs of wear or damage and to replace it if necessary.


• Inspect chain lashings before use.
• Calculate the lashing force(s) required for the chosen method of load restraint.
• Select the capacity and number of chain lashings to provide at least the calculated lashing force(s)
• Ensure the lashing points on the vehicle and/or load are of adequate strength.
• Protect the chain lashing from small radii edges or reduce the lashing capacity in accordance with the manufacturer’s instructions.
• Ensure the chain lashings are correctly tensioned.
• Exercise care when releasing chain lashings in case the load has become unstable since the lashings were applied.


• Use chain lashings to lift a load.
• Knot, tie or modify chain lashings.
• Overload chain lashings.
• Use chain lashings over a sharp edge without edge protection or reducing the lashing capacity.
• Expose chain lashings to chemicals without consulting the supplier.
• Use chain lashings which have any distorted chain links, a damaged tensioner, damaged terminal fittings or a missing ID tag.


Selecting the Correct Chain Lashing
The standard for chain lashings is BS EN 12195-3: 2001. It requires the chain to conform to EN 818-2 and the connecting components to conform to EN 1677-1, 2 or 4 as appropriate. Connecting and shortening components must have a have a securing device such as a safety latch.
These standards are for grade 8 items. Some manufacturers also offer higher grades which, size for size, have a greater lashing capacity.
Chain lashings are available in a range of capacities and lengths and in various configurations. Some are general
purpose. Others are intended for specific applications.
Selection should start with an assessment of the forces acting on the load. The lashing force(s) required should be calculated in accordance with BS EN 12195-1: 2010.
Next check whether the lashing points on the vehicle and/or load are of adequate strength. If necessary apply a greater number of lashings to spread the force across more lashing points.
Chain lashings are marked with their lashing capacity (LC). expressed in daN (deca Newton = 10 Newtons) This is a force approximately equivalent to a weight of 1kg.


Using Chain Lashings Safely
Ensure that the tensioner is free to align and not bent over an edge. Ensure that the chain is not twisted or knotted and that the terminal fittings engage correctly with the lashing points.
For two part lashings, ensure the parts are compatible.
Ensure that the chain is protected from sharp and small radius edges by suitable packing or edge protectors.
Note: The manufacturer’s instructions may permit use over small radius edges provided the lashing capacity is reduced.


In-service Inspection and Storage
Chain lashings can be damaged by tensioning the chain across small radius edges without adequate edge protection. However damage may occur accidentally as a result of the load moving in transit hence the need to inspect before each use.
Chain lashings should not be exposed to chemicals, particularly acids which can cause hydrogen embrittlement. If accidental contamination occurs, the lashings should be cleaned with clear water and allowed to dry naturally. Weak chemical solutions will become increasingly stronger by evaporation.
Chain lashings should be inspected for obvious signs of damage before each use. Do not use the chain lashing if any of the following defects are found: illegible markings; bent, elongated or notched chain links, distorted or notched coupling components or end fittings, ineffective or missing safety latches.
Chain lashings will gradually wear over time. The LEEA recommends that they should be inspected by a competent
person at least every 6 months and a record made of the result.
Chain lashings should only be repaired by someone competent to do so.
For long term storage the storage area should be dry, clean and free of any contaminates.

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