General Rigging
Guidelines

Peerless Industrial Group, Inc., as a manufacturer of chain, can only control the specifications of our chain products in accordance with industry and governmental standards for chain manufacturing. It would be impossible for any warning to contain all of the possible misapplications associated with the use of Peerless Industrial Group, Inc. products. Our warnings are intended to identify only those risks which are most common. The responsibility and understanding of the proper safe use and application of the products in our catalog, ultimately rest with the end user.

Working Load Limit (WLL)

The “Working Load Limit” (rated capacity) is the maximum load that shall be applied in direct tension to an undamaged straight length of chain.

Proof Test

The “Proof Test” (manufacturing test force) is a term designating the minimum tensile force which has been applied to a chain under constantly increasing force in direct tension during the manufacturing process. These loads are manufacturing integrity tests and shall not be used as criteria for service or design purposes.

Minimum Breaking Force

The “Minimum Breaking Force” is the minimum force at which the chain during manufacture has been found by testing to break when a constantly increasing force is applied in direct tension. Breaking force values are not guarantees that all chain segments will endure these loads. This test is a manufacturer’s attribute acceptance test and shall not be used as a criteria for service or design purposes.

The Working Load Limits and the associated safety factor of each Peerless product may be affected by wear, misuse, overloading, corrosion, deformation, intentional alteration and other use conditions. Regular inspection must be conducted to determine whether use can be continued at the assigned Working Load Limit, a reduced Working Load Limit or whether the product must be withdrawn from service. The terms “Working Load Limit”, “Proof Test” and “Minimum Breaking Force” contain no implication of what load the chain will withstand if the chain is used in such conditions of abuse and misuse. Peerless Industrial Group, Inc. accepts no liability for any such abuse or misuse.

The Working Load Limit of a sling or assembly must not exceed the lowest Working Load Limit of the components in the sling or assembly. Use only Peerless Industrial Group, Inc. approved parts as replacements when servicing or repairing original Peerless Industrial Group, Inc. slings or assemblies.

USE ONLY GRADE 80 OR GRADE 100 ALLOY CHAIN AND ATTACHMENTS FOR OVERHEAD LIFTING.

PEERLESS INDUSTRIAL GROUP PRODUCTS ARE INTENDED TO BE USED AT OR BELOW THE MAXIMUM WORKING LOAD LIMITS SPECIFIED IN CONSTANTLY INCREASING FORCE APPLICATIONS UNDER DIRECT TENSION OR IN A STRAIGHT LINE PULL.

SHOCK LOADING IS PROHIBITED AND SIDE LOADING MUST BE AVOIDED, AS IT EXERTS ADDITIONAL DYNAMIC FORCES OR LOADING WHICH THE PRODUCT IS NOT DESIGNED TO ACCOMMODATE.

THE CONDITIONS INVOLVING USE IN CERTAIN ENVIRONMENTAL SITUATIONS SUCH AS UNUSUAL (HIGH OR LOW) TEMPERATURE, CHEMICAL, ETC…, CAN CAUSE CHANGES IN CHAIN PERFORMANCE.

All chains and attachments in this catalog are capable of creating sparks unless otherwise noted.

Welding Peerless Industrial Group, Inc. load support parts or products can be hazardous. Knowledge of materials, heat treatment and welding procedures are necessary for proper welding.

CONSULT PEERLESS INDUSTRIAL GROUP FOR ADDITIONAL INFORMATION OR QUESTIONS REGARDING THE USE AND APPLICATION OF THE PRODUCTS COVERED IN THIS CATALOG.

Temperature & Chain

Use of Grade 80 Chain Under Heat Conditions

Effect of Elevated Temperature on the Working Load Limit of Grade 80 Alloy Chain

Chains should not be used outside of the -40º F to 400º F (-40º C to 204º C) temperature range without consulting the chain manufacturer. The specific working load limit reductions for Grade 80 chains used at and after exposure to elevated temperatures have been established and are shown below.

Maximum Temperature of ChainReduction of Working Load Limit While At TemperatureReduction of Working Load Limit After Exposure to Temperature
Below 400º None None
400º 10% None
500º 15% None
600º 20% 5%
700º 30% 10%
800º 40% 15%
900º 50% 20%
1000º 60% 30%
Over 1000º •(see below) •(see below)

* OSHA 1910.184 requires all slings exposed to temperatures over 1000º F to be removed from service.

Use of Grade 100 Chain Under Heat Conditions

Effect of Elevated Temperature on the Working Load Limit of Grade 100 Alloy Chain

Chains should not be used outside of the -40º F to 400º F (-40º C to 204º C) temperature range without consulting the chain manufacturer. The specific working load limit reductions for Grade 100 chains used at and after exposure to elevated temperatures have been established and are shown below.

Maximum Temperature of ChainReduction of Working Load Limit While At TemperatureReduction of Working Load Limit After Exposure to Temperature
Below 400º None None
400º 15% None
500º 25% 5%
600º 30% 10%
700º 40% 15%
800º 50% 20%
900º 60% 30%
1000º 70% 35%
Over 1000º •(see below) •(see below)

* OSHA 1910.184 requires all slings exposed to temperatures over 1000º F to be removed from service.

General Hook & Latch Guidelines

Important Safety Information – Read & Follow

  • Always inspect hook and latch before using.
  • Never use a latch that is distorted or bent.
  • Always make sure spring will force the latch against the tip of the hook.
  • Always make sure hook supports the load. Do not point load hooks–load should bear on the bowl of hook. The latch must never support the load. (See Figure 1 & 2).
  • Latches are intended to retain loose sling of devices under slack conditions.
  • Latches are not intended to be an anti-fouling device.
 
Latch Guidelines
 
 
 
 

Table of Chain Wear

If chain is worn to less than the minimum allowable thickness (T), remove the chain from service.

 
Chain Wear Illustration
 
Minimum Allowable Chain Link Thickness at Any Point
Nominal Chain Size Minimum Thickness (T)
Inches mm Inches mm
7/32″ 5.5 0.189 4.80
9/32” 7 0.239 6.07
5/16″ 8 0.273 6.93
3/8” 10 0.342 8.69
1/2” 13 0.443 11.26
5/8” 16 0.546 13.87
3/4” 20 0.687 17.45
7/8” 22 0.750 19.05
1” 26 0.887 22.53
1-1/4” 32 1.091 27.71
REFER TO ASME B30.9

Chain Sling Safety Checklist

 

Check #1 – Inspections

Visually examine the sling before each use. Look for stretched, gouged, bent or worn links and components, including hooks, with open throats, cracks or distortion, if damaged, remove from service.

Check 1B: Inspections
 
Check 1: Inspections
 

Check #2 – Balance

Know the load — determine the weight, center of gravity, angle and lift and select the proper size of sling.

 
Check 2: Balance
 

Check #3 – Overload

Never overload the sling — check the working load limit on the identification tag. Always consider the effect of Angle of Lift — the tension on each leg of the sling is increased as the angle of lift, from horizontal, decreases. Use the chart in the Peerless Industrial Group, Inc. catalog or in the Peerless Chain Sling User’s Manual for this purpose.

 
Check 3: Overload
 

Check #4 – Knots, Twists & Kinks

Make sure chain is not twisted, knotted or kinked before lifting load. Slings should not be shortened with knots, bolts or other make-shift devices.

 
Check 4: Knots, twists & kinks
 

Check #5 – Sharp Edges

Protect chain with padding when lifting sharp edged loads.

 
Check 5: Sharp edges
 

Check #6 – Abrupt Movement

Lift and lower loads smoothly. Do not jerk.

 
Check 6: Abrupt Movement
 

Check #7 – High Temperatures

Do not expose alloy chain or sling to temperatures of 400°F or higher.

 
Check 7: Temperatures
 

Check #8 – Chain Care

Store slings properly on an A-Frame and protect chain slings from corrosion during storage.

 
Check 8: Chain Care

Below-the-Hook & Material Handling Equipment

This information consists of general guidelines only.  Refer to current OSHA, ANSI & ASME standards for complete specifications.

 

INDUSTRY STANDARDS

The American Society of Mechanical Engineers (ASME) developed standards that  apply specifically to the devices Peerless Industrial Group, Inc. designs and manufacturers. These standards serve as a guide to government authorities, manufacturers, purchasers and operators of below-the-hook lifting devices.

 

ASME B30.20-2018

Provides detailed information on the classifications, marking, construction, installation, inspection, testing, maintenance and operation of below-the-hook lifting devices.

 

ASME BTH-1-2017

Provides detailed information on the design criteria of below-the-hook lifting devices.

 

MARKINGS & IDENTIFICATION

beam plate  

The rated load of the lifting device is visibly marked on the main structure of the device, as well as on a tag  attached to the lifter.  If the below-the-hook lifting device consists of individually detachable lifters, then each of the individual lifters shall be marked and tagged with their individual rated loads.

All Peerless Industrial Group, Inc.  below-the-hook lifting devices are tagged with the following information:

  • Manufacturer’s name  and address
  • Serial number
  • Lifter weight,  if over 100 lbs. (45 kg)
  • Cold current  (amps) (when applicable)
  • Rated voltage (when applicable)
  • Rated load
  • Manufacture date
  • ASME BTH-1 Design category
  • ASME BTH-1 Service class
 

GENERAL CONSTRUCTION

All Peerless structural  and mechanical  lifting devices are designed  and manufactured by qualified personnel.  Peerless designs  are  in accordance with ASME BTH-1 and take into consideration the stresses that  result  from  the  application  of  the  rated  load along  with  the  weight  of the  actual  lifter and  are designed to ASME BTH-1 Design Category B. Service Class is determined by taking into consideration the fatigue  life criteria based  on  the  expected  number of load cycles.

 

DESIGN CATEGORY

Design category B shall be utilized when the size, scale and variation of loads applied to the lifter are not always predictable or clearly defined and where the  environmental and loading conditions vary or could be severe.

 

SERVICE CLASS

Service Class is determined by the specified fatigue life of the lifter.

  • Service Class 0 is 0 to 20,000 load cycles.
  • Service Class 1 is 20,001 to 100,000 load cycles.
  • Service Class 2 is 100,001 to 500,000 load cycles.
  • Service Class 3 is 500,001 to 2,000,000 load cycles.
  • Service Class 4 is over 2,000,000 load cycles

SERVICE CLASS LIFE

Cycles Per DayDesired Life (Years)
  1 5 10 20 30
5 0 0 0 1 1
10 0 0 1 1 2
25 0 1 1 2 2
50 0 1 2 2 3
100 1 2 2 3 3
200 1 2 3 3 4
300 2 3 3 4 4
750 2 3 4 4 4
1,000 2 3 4 4 4

All welding shall be in accordance with AWS D14.1/D14M and ASME BTH-1.

Exposed moving parts such as gears, projecting shafts and chain drives that constitute a hazard under normal operating conditions are guarded.  All welding shall be in accordance with ANSI/AWS D14.1 and ASME BTH-1.

Electrical equipment and wiring shall comply with ANSI/NFPA 70 and ASME BTH-1.

FOR INFORMATION ON MODIFICATIONS OR REPAIRS TO YOUR LIFTING DEVICE, CONTACT PEERLESS INDUSTRIAL GROUP TO ENSURE COMPLIANCE WITH THE CURRENT ASME STANDARDS.

 

PROOF TEST

100% OF ALL PEERLESS BELOW-THE-HOOK LIFTING DEVICES ARE PROOF-TESTED TO 125% CAPACITY AND CERTIFICATES SUPPLIED AT NO ADDITIONAL CHARGE.

Requirements & Recommendations:

Requirements of the ASME standard are noted by the word shall.  Recommendations of the ASME standard are noted by the word should.

 

OPERATION PRACTICES FOR LIFTING DEVICES

Below-the-hook lifting devices shall only be operated by the following qualified personnel:

  • Personnel designated to operate the lifter.
  • Trainees who are under the direct supervision of designated personnel.
  • Personnel designated to maintenance and/or conduct testing on the lifter.
  • Personnel designated to inspect the lifter.

The operator shall ensure that the weight of the load to be lifted along with its approximate center of gravity have been provided, calculated, or obtained.

The below-the-hook lifting device shall not be overloaded beyond its manufactured rated capacity nor shall it be utilized to handle any load that it was not designed to handle.

The operator shall ensure the lifting device is properly attached to the hook, shackle, or other load handling device.

The operator shall ensure that the lifter is applied to the load in accordance with the instruction manual.

When rigging is utilized in conjunction with the lifter, the operator shall ensure that it is not kinked and the multiple part lines are not twisted around each other.

The operator shall ensure that the load is correctly distributed for the lifter prior to the lift.

The operator shall ensure that the temperature of the load does not exceed the maximum allowable limits of the lifting device.

The operator shall ensure that the load is properly balanced and well secured with the lifting device at the onset of the lift.

The operator shall ensure that the lifter and the load do not come into contact with any obstruction.

The operator shall ensure that the lifter is sufficiently protected from damage during use.

The operator shall ensure that the lifter is not utilized for side pulls or sliding the load unless explicitly authorized by a qualified person.

Before leaving the lifter the operator shall land any attached load and store the lifter in an assigned location. The operator shall ensure that suspended loads are not left unattended.

The operator shall ensure that no person rides the load or the lifter.

The operation of the lifter shall be observed prior to and during a shift.  Any observed deficiency in the lifter shall be examined by designated personnel.  Any deficiency that constitutes a hazard shall be removed from service and tagged “Out of Service”.  All hazardous deficiencies shall be reported to qualified personnel for evaluation.

All loads shall be guided in a manner to avoid endangering any part of the body as it is lowered or being accidentally dropped.

Miscellaneous Operating Practices

An operator shall not utilize a below-the-hook lifter that has an “Out of Service” tag or has been designated as non-functioning.

Only designated personnel shall be given the authority to remove “Out of Service” tags on lifting devices.

When not in use the below-the-hook device should be stored in an assigned location.

Lifter markings and tags shall not be removed or damaged.  Lifter markings and tags that are missing or illegible shall be replaced.

 

INSPECTION

Initial Inspection:

Prior to initial use, all new, altered, modified, or repaired lifting devices shall be inspected by a qualified person to ensure compliance with the provisions of the ASME B30.20 standard.

Inspection Intervals:

Below-the-hook lifters in regular service require three general types of inspection classification procedures; every lift, frequent, and periodic.  The intervals for inspection are determinant upon the severity of use of the below-the-hook device, the extent of the exposure to wear and tear, as well as any history of malfunction experienced by the lifter.

Every Lift Inspection:

A visual examination performed by the operator of the below-the-hook lifter conducted prior to and during every lift.

Frequent Inspection:

Are comprised of visual inspections performed by either the lifter operator or other assigned personnel (Records are not required by the ASME standard).

  • Normal use – once a month
  • Heavy use – once a week to once a monthly
  • Severe use – once a day to once a week
  • Special or infrequent use – outlined as specified by a qualified individual prior to and following each use.
  • Any lifter that has been idle for a period of one month to a year shall undergo a frequent inspection prior to use.

The  following items listed below shall be included within the regular inspection schedule and shall be thoroughly inspected and an assessment formed as to the extent of the issue and the level of subsequent hazard resulting from it.

  • Structural deformation
  • Cracks in welds or structural members
  • Excessive wear
  • Loose or missing parts, tags, safety guards, fasteners, stops, and/or housings.
  • Out of adjustment conditions that interfere with the normal operation and functionality of all mechanisms including automatic hold and release components.
  • Unreadable or missing operating control labels
  • Contact Peerless Industrial Group, Inc. for replacements of missing identification tags and nameplates.

Periodic Inspections:

Are comprised of visual inspections performed by assigned personnel who record the current condition of the below-the-hook lifter in order to provide the basis for a continuing program of recorded evaluation.  Dated reports for periodic inspections shall be maintained.

  • Normal use – annual inspection typically performed on-site.
  • Heavy use – dis-assembly by a qualified individual should be performed semi-annually in order to facilitate a detailed inspection.
  • Severe use – dis-assembly by a qualified individual should be performed quarterly in order to facilitate a detailed inspection.
  • Special or infrequent use – outlined as specified by a qualified individual prior to and following each use.
  • Any lifter that has been idle for a period of one year or more shall undergo a periodic inspection prior to use.

Below-the-hook lifting devices shall undergo a thorough inspection based upon the previously defined intervals of every lift, frequent, and periodic.    Any and all issues such as the following (as listed below) shall be investigated and a conclusion made as to if the extent of the issue and to if it is severe enough in its nature to represent a hazard.  Dated inspection reports of the following critical items shall be made.

  • All requirements outlined within the frequent inspection process.
  • Missing or loose nuts, bolts, or fasteners.
  • Fractured gears, pulleys, sheaves, sprockets, bearings, chain and belts.
  • Excessive wear of linkages, gears, pulleys, sprockets, sheaves, chain, belts, bearings, hardware, and other mechanical parts.
  • Excessive wear at the bail or other load bearing points.
  • Unreadable or missing product safety labels, as required by ASME B30.20 standard.

All repairs or modifications shall be documented on dated inspection reports.

 

MAINTENANCE

Preventive Maintenance:

A preventive maintenance program shall be established and be based on recommendations made by Peerless Industrial Group, Inc..  It can be determined to be appropriate as designated by a qualified person to add to the maintenance program following a review of the use of the below-the-hook lifter.  Any hazards disclosed during an inspection shall be corrected before the lifting device is put back into service.  Any repairs and/or adjustments shall be done only under the direction of or by a qualified person.  Replacement parts shall be equivalent to the Peerless Industrial Group, Inc.’s specifications.

For more information or to purchase a copy of the standard, visit the ASME website, www.asme.org.