ASME B30.14-2015 (R2021) Side Boom Tractors PDF

Summary

This document is a safety standard for cableways, cranes, derricks, hoists, hooks, jacks, and slings, published by ASME in 2021. It provides safety and performance requirements for side boom tractors.

Full Transcript

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ASME B30.14-2015
(Revision of ASME B30.14-2010)

REAFFIRMED 2021

Side Boom
Tractors
Safety Standard for Cableways, Cranes,
Derricks, Hoists, Hooks, Jacks, and SLings
1i

AN AMERICAN NATIONAL STANDARD
 prohibited.
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ASME B30.14-2015
(Revision of ASME B30.14-2010)

Side Boom
Tractors
Safety Standard for CabLeways, Cranes,
Derricks, Hoists, Hooks, Jacks, and SLings

AN AMERICAN NATIONAL STANDARD

€ S The American Society of
® Mechanical Engineers Two ParkAvenue New York NY 10016 USA
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Date of Issuance: December 31, 2015

The next edition of this Standard is scheduled for publication in 2018. This Standard will become
effective 1 year after the Date of Issuance.

ASME issues written replies to inquiries concerning interpretations of technical aspects of this
Standard. Interpretations are published on the ASME Web site under the Committee Pages at
http://cstools.asme.org/ as they are issued.

Errata to codes and standards may be posted on the ASME Web site under the Committee Pages to
provide corrections to incorrectly published items, or to correct typographical or grammatical errors
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This code or standard was developed under procedures accredited as meeting the criteria for American National
Standards. The Standards Committee that approved the code or standard was balanced to assure that individuals from
competent and concerned interests have had an opportunity to participate. The proposed code or standard was made
available for public review and comment that provides an opportunity for additional public input from industry, academia,
regulatory agencies, and the public-at-large.
ASME does not “approve,” ‘rate,’ or “endorse” any item, construction, proprietary device, or activity.
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No part of this document may be reproduced in any form,
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without the prior written permission of the publisher.

The American Society of Mechanical Engineers
Two Park Avenue, New York, NY 10016-5990

Copyright © 2015 by
THE AMERICAN SOCIEW OF MECHANICAL ENGINEERS
All rights reserved
Printed in U.S.A.
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CONTENTS

Foreword iv
Committee Roster vi
B30 Standard Introduction viii
Summary of Changes xi

Chapter 14-0 Scope, Definitions, TransLation, Personnel Competence, and
References
Section 14-0.1 Scope of B30.14 1
Section 14-0.2 Definitions 1
Section 14-0.3 Translations of Safety-Related Information and Control
Designations 3
Section 14-0.4 Persormel Competence 3
Section 14-0.5 References 3

Chapter 14-1 Construction and Characteristics 4
Section 14-1.1 Load Ratings 4
Section 14-1.2 Operational Aids 5
Section 14-1.3 Boom Hoist and Load Hoist Mechanisms 6
Section 14-1.4 Side Boom Tractor Travel 7
Section 14-1.5 Controls 7
Section 14-1.6 Ropes and Reeving Accessories 7
Section 14-1.7 Cabs K
Section 14-1.8 General Requirements 8

Chapter 14-2 Inspection, Testing, and Maintenance 10
Section 14-2.1 Inspection General
—
10
Section 14-2.2 Testing 11
Section 14-2.3 Maintenance 11
Section 14-2.4 Rope Inspection, Replacement, and Maintenance — General 12

Chapter 14-3 Operation 14
Section 14-3.1 Operator Qualifications and Operating Practices 14
Section 14-3.2 Handling the Load 17
Section 14-3.3 Signals 19
Section 14-3.4 Operating Near Electric Power Lines 19
Section 14-3.5 Miscellaneous 20

Figures
14-0.2-1 Track-Type Side Boom Tractor 2
14-0.2-2 Wheel-Type Side Boom Tractor 2
14-1.1.4-1 Load Rating Chart 5
14-3.3.2-1 Standard Hand Signals for Controlling Side Boom Tractor
Operations 21
14-3.4.1-1 Danger Zone for Side Boom Tractors and Lifted Loads Operating
Near Electrical Transmission Lines 23

Table
14-3.4.1-1 Required Clearance for Normal Voltage in Operation Near High
Voltage Power Lines and Operation in Transit With No Load and
Boom or Mast Lowered 23

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FOREWORD

This American National Standard, Safety Standard for Cableways, Cranes, Derricks, Hoists,
Hooks, Jacks, and Slings, has been developed under the procedures accredited by the American
National Standards Institute (ANSI). This Standard had its beginning in December 1916 when
an eight-page Code of Safety Standards for Cranes, prepared by an ASME Committee on the
Protection of Industrial Workers, was presented at the annual meeting of the ASME.
Meetings and discussions regarding safety on cranes, derricks, and hoists were held from 1920
to 1925, involving the ASME Safety Code Correlating Committee, the Association of Iron and
Steel Electrical Engineers, the American Museum of Safety, the American Engineering Standards
Committee (AESC) [later changed to American Standards Association (ASA), then to the United
States of America Standards Institute (USASI), and finally to ANSI], Department of Labor —

State of New Jersey, Department of Labor and Industry State of Pennsylvania, and the
—

Locomotive Crane Manufacture rs Association. On June11, 1925, AESC approved the ASME Safety
Code Correlating Committee’s recommendation and authorized the project with the
U.S. Department of the Navy, Bureau of Yards and Docks, and ASME as sponsors.
In March 1926, invitations were issued to 50 organizations to appoint representatives to a
Sectional Committee. The call for organization of this Sectional Committee was sent out
October 2, 1926, and the committee organized November 4, 1926, with 57 members representing
29 national organizations. Commencing June 1, 1927, and using the eight-page code published
by ASME in 1916 as a basis, the Sectional Committee developed the Safety Code for Cranes,
Derricks, and Hoists. The early drafts of this safety code included requirements for jacks, but,
due to inputs and comments on those drafts, the Sectional Committee decided in 1938 to make
the requirements for jacks a separate code. In January 1943, ASA B30.2-1943 was published
addressing a multitude of equipment types, and in August 1943, ASA B30.1-1943 was published
just addressing jacks. Both documents were reaffirmed in 1952 and widely accepted as safety
standards.
Due to changes in design, advancement in techniques, and general interest of labor and industry
in safety, the Sectional Committee, under the joint sponsorship of ASME and the Bureau of Yards
and Docks (now the Naval Facilities Engineering Command), was reorganized on January 31, 1962,
with 39 members representing 27 national organizations. The new committee changed the format
of ASA B30.2-1943 so that the multitude of equipment types it addressed could be published in
separate volumes that could completely cover the construction, installation, inspection, testing,
maintenance, and operation of each type of equipment that was included in the scope of ASA B30.2.
This format change resulted in the initial publication of B30.3, B30.5, B30.6, B30.11, and B30.16
being designated as revisions of B30.2, with the remainder of the B30 volumes being published
as totally new volumes. ASA changed its name to USASI in 1966 and to ANSI in 1969, which
resulted in B30 volumes from 1943 to 1968 being designated as either ASA B30, USAS B30, or
ANSI B30, depending on their date of publication.
In 1982, the Committee was reorganized as an Accredited Organization Committee, operating
under procedures developed by ASME and accredited by ANSI. This Standard presents a coordi
nated set of rules that may serve as a guide to government and other regulatory bodies and
municipal authorities responsible for the guarding and inspection of the equipment falling within
its scope. The suggestions leading to accident prevention are given both as mandatory and
advisory provisions; compliance with both types may be required by employers of their employees.
In case of practical difficulties, new developments, or unnecessary hardship, the administrative
or regulatory authority may grant variances from the literal requirements or permit the use of
other devices or methods but only when it is clearly evident that an equivalent degree of protection
is thereby secured. To secure uniform application and interpretation of this Standard, administra
tive or regulatory authorities are urged to consult the B30 Committee, in accordance with the
format described in Section IX of the Introduction, before rendering decisions on disputed points.

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Safety codes and standards are intended to enhance public safety. Revisions result from commit
tee consideration of factors such as technological advances, new data, and changing environmental
and industry needs. Revisions do not imply that previous editions were inadequate.
B30.14 has been in existence since 1979. New editions were published in 1985, 1991, 1996, 2004,
and 2010. This 2015 Edition contains technical and editorial revisions, including the addition of
responsibilities of personnel, and requirements for personnel competence, and translations.
This Volume of the Standard, which was approved by the B30 Committee and by ASME, was
approved by ANSI and designated as an American National Standard on November 11, 2015.

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ASME B30 COMMITTEE
Safety Standard for Cableways, Cranes, Derricks, Hoists,
Hooks, Jacks, and Slings
(The following is the roster of the Committee at the time of approval of this Standard.)

STANDARDS COMMITTEE OFFICERS
B. D. Closson, Chair
T. L. Btanton, Vice Chair
K. M. Hyam, Secretary

STANDARDS COMMITTEE PERSONNEL
N. E. Andrew, LTS Cranes Mechanical E. K. Marburg, Columbus McKinnon Corp.
M. Eggenberger, Alternate, Berry Contracting, Inc. J. R. Burkey, Alternate, Columbus McKinnon Corp.
6. Austin, Terex Corp. 1. D. Means, Means Engineering and Consulting
T. L. Blanton, NACB Group, Inc. D. A. Henninger, Alternate, Bridon American
R. Ohman, Alternate, Verde Concepts, Inc. M. W. Mills, Liberty Mutual Insurance
P. A. Boeckman, The Crosby Group D. M. Gordon, Alternate, Liberty Mutual Insurance
C. E. Lucas, Alternate, The Crosby Group D. L. Morgan, Critical Lift Consultants LLC
P. W. Boyd, The Boeing Co. T. C. Mackey, Alternate, WRPS Hanford
M. E. Brunet, The Manitowoc Co. W. E. Osborn, Ingersoll Rand
A. 1. Calta, Alternate, The Manitowoc Co. S. D. Wood, Alternate, Link-Belt Construction Equipment Co.
B. D. Ctosson, Craft Forensic Service R. M. Parnell, Industrial Training International
W. C. Dickinson, Jr., Alternate, Industrial Training International
B. A. Pickett, Alternate, Systems Engineering and Forensic Services
J. T. Perkins, Solarex
J. A. Danielson, The Boeing Co.
D. Decker, Becket LLC J. R. Schober, Alternate, American Bridge Co.
L. D. DeMark, Equipment Training Solutions LLC J. E. Richardson, Navy Crane Center
K. Kennedy, Alternate, Navy Crane Center
D. F. Jordan, Alternate, BP America
D. W. Ritchie, David Ritchie Consultant LLC
D. W. Eckstine, Eckstine & Associates
L. K. Shapiro, Alternate, Howard I. Shapiro & Associates
6. J. Brent, Alternate, NCCCO
R. J. Edwards, NBIS Claims and Risk Management, Inc.
J. W. Rowland III, Consultant
D. A. Moore, Alternate, Unified Engineering
A. I. Egging, National OlIwell Varco
R. Stanoch, Alternate, National Oilwell Varco
J. C. Ryan, Boh Bros. Construction Co.
A. R. Ruud, Alternate, Atkinson Construction
E. D. Fidler, The Manitowoc Co. D. W. Smith, STI Group
6. D. MilLer, Alternate, The Manitowoc Co. S. K. Rammelsberg, Alternate, Chicago Bridge & Iron Co.
J. A. Gilbert, Associated Wire Rope Fabricators W. J. Smith, Jr., NBIS Claims and Risk Management, Inc.
J. L. Gordon, Associated Chain and Lifting Products J. Schoppert, Alternate, NBIS Claims and Risk Management, Inc.
N. C. Hargreaves, Hargreaves Consulting LLC R. S. Stemp, Lampson International LLC
G. B. Hetherston, E. I. DuPont E. P. Vliet, Alternate, Turner Industries Group
R. J. BoLen, Alternate, E. I. DuPont R. G. Strain, Advanced Crane Technologies LLC
K. M. Hyam, The American Society of Mechanical Engineers J. Sturm, Sturm Corp.
M. M. Jaxtheimer, Navy Crane Center R D. Sweeney, General Dynamics Electric Boat
S. R. Gridley, Alternate, Navy Crane Center B. M. Casey, Alternate, General Dynamics Electric Boat
R R. Juhren, Morrow Equipment Co. LLC J. D. Wiethorn, Haag Engineering Co.
M. J. Quinn, Alternate, Morrow Equipment Co. LLC M. Gardiner, Alternate, Haag Engineering Co.
R. M. Kohner, Landmark Engineering Services, Ltd. R. C. Wild, C) Drilling, Inc.
D. Duerr, Alternate, 2DM Associates, Inc. J. Dudley, Alternate, Archer Western Contractors
A. J. Lusi, Jr., Lumark Consulting LLP D. N. Wolff, National Crane/Manitowoc Crane Group
K. J. Shinn, Alternate, K. I. Shinn, Inc. J. A. Pilgrim, Alternate, Manitowoc Crane Group

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HONORARY MEMBERS
J. W. Downs, Jr., Downs Crane and Hoist Co.
J. L Franks, Consultant
C. W. Ireland, National Oilwell Varco
J. M. Klibert, Lift-All Co., Inc.
R. W. Parry. Consultant
P. S. Zorich, Consultant

B30.14 SUBCOMMITTEE PERSONNEL
D. W. Smith, Chair, STI Group M. T. Gavlock, Pipeline Training Coordinator
6. Bachul, Cranesmart Systems, Inc. T. Hoed, Volvo Construction Equipment
C. 1. Carl, Consultant L. D. Means, Means Engineering and Consulting
C. M. Crowell, Caterpillar, Inc. 1. S. Olver, Kolo Holdings, Inc.
D. Garner, Midwestern Manufacturing Co.

B30 INTEREST REVIEW GROUP
0. Akinboboye, Ropetech Engineering Services C. Ian, DOI-BSEE
J. D. Cannon, Consultant A. C. Mattoli, Prowinch LLC
M. Eggenberger, Berry Contracting, Inc. M. W. Osborne, E-Crane International USA
A. Gomes Rocha, Belgo Bekaert Arames G. L Owens, Consultant
H. A. Hashem, Saudi Aramco W. Rumburg, Crane Consultants, Inc.
J. Hui, Sipailou 2#, School of Civil Engineering C.-C. Tsaur, Institute of Occupational Safety on Health

B30 REGULATORY AUTHORITY COUNCIL
C. Shelhamer, Chair, New York City Department of Buildings J. L. Lanklord, State of Nevada (OSHA)
A. 0. Omran, Alternate, New York City Department of Buildings A. Lundeen, State of Washington, Department of Labor and
K. M. Hyam, Secretary, The American Society of Mechanical Industries
Engineers G. E. Pushies, MIOSHA
L. 6. Campion, DOL/OSHA C. N. Stribling, Jr., Kentucky Labor Cabinet
W. L. Cooper, ADOSH T. Taylor, State of Minnesota, Department of Labor and Industry
R. Feidt, Stephenson Equipment, Inc. C. Tolson, State of California, OSH Standards Board
C. Harris, City of Chicago —Department of Buildings

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SAFETY STANDARD FOR CABLEWAYS, CRANES, DERRICKS, HOISTS,
HOOKS, JACKS, AND SLINGS

(15) B30 STANDARD INTRODUCTION

SECTION I: SCOPE B30.23 Personnel Lifting Systems
B30.24 Container Cranes
The ASME B30 Standard contains provisions that
B30.25 Scrap and Material Handlers
apply to the construction, installation, operation, inspec
B30.26 Rigging Hardware
tion, testing, maintenance, and use of cranes and other
B30.27 Material Placement Systems
lifting and material-movement related equipment. For
B30.28 Balance Lifting Units
the convenience of the reader, the Standard has been
B30.29 Self-Erecting Tower Cranes
divided into separate volumes. Each volume has been
B30.30 Ropes1
written under the direction of the ASME B30 Standard
Committee and has successfully completed a consensus
approval process under the general auspices of the SECTION II: SCOPE EXCLUSIONS
American National Standards Institute (ANSI).
As of the date of issuance of this Volume, the Any exclusion of, or limitations applicable to the
B30 Standard comprises the following volumes: equipment, requirements, recommendations, or opera
tions contained in this Standard are established in [he
B30.1 Jacks, Industrial Rollers, Air Casters, and affected volume’s scope.
Hydraulic Gantries
B30.2 Overhead and Gantry Cranes (Top Running
Bridge, Single or Multiple Girder, Top SECTION III: PURPOSE
Running Trolley Hoist) The B30 Standard is intended to
B30.3 Tower Cranes (a) prevent or minimize injury to workers, and other
B30.4 Portal and Pedestal Cranes wise provide for the protection of life, limb, and property
B30.5 Mobile and Locomotive Cranes by prescribing safety requirements
B30.6 Derricks (b) provide direction to manufacturers, owners,
B30.7 Winches employers, users, and others concerned with, or respon
B30.8 Floating Cranes and Floating Derricks sible for, its application
B30.9 Slings (c) guide governments and other regulatory bodies
B30.1O Hooks in the development, promulgation, and enforcement of
B30.11 Monorails and Underhung Cranes appropriate safety directives
B30.12 Handling Loads Suspended From Rotorcraft
B30.13 Storage/Retrieval (S/R) Machines and
Associated Equipment SECTION IV: USE BY REGULATORY AGENCIES
B30.14 Side Boom Tractors
These volumes may be adopted in whole or in part
B30.15 Mobile Hydraulic Cranes
for governmental or regulatory use. If adopted for gov
(withdrawn 1982 requirements found in
ernmental use, the references to other national codes
—

latest revision of B30.5)
and standards in the specific volumes may be changed
B30.16 Overhead Hoists (Underhung) to refer to the corresponding regulations of the govern
B30.17 Overhead and Gantry Cranes (Top Running mental authorities.
Bridge, Single Girder, Underhung Hoist)
B30.18 Stacker Cranes (Top or Under Running
Bridge, Multiple Girder With Top or Under SECTION V: EFFECTIVE DATE
Running Trolley Hoist)
B30.19 Cableways (a) Effective Date. The effective date of this Volume of
the B30 Standard shall be 1 yr after its date of issuance.
B30.20 Below-the-Hook Lifting Devices
B30.21 Lever Hoists
B30.22 Articulating Boom Cranes This volume is currently in the development process.

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Construction, installation, inspection, testing, mainte the requester defining the actions undertaken by the
nance, and operation of equipment manufactured and B30 Standard Committee.
facilities constructed after the effective date of this
Volume shall conform to the mandatory requirements
SECTION IX: REQUESTS FOR INTERPRETATION
of this Volume.
(b) Existing Installations. Equipment manufactured The B30 Standard Committee will render an interpre
and facilities constructed prior to the effective date of tation of the provisions of the B30 Standard. Such
this Volume of the B30 Standard shall be subject to the requests should be directed to
inspection, testing, maintenance, and operation require
Secretary, B30 Standard Committee
ments of this Standard after the effective date.
ASME Codes and Standards
It is not the intent of this Volume of the B30 Standard
Two Park Avenue
to require retrofitting of existing equipment. Howevei
New York, NY 10016-5990
when an item is being modified, its performance require
ments shall be reviewed relative to the requirements Requests should be in the following format:
within the current volume. The need to meet the current Volume: Cite the designation and title of the
requirements shall be evaluated by a qualified person volume.
selected by the owner (user). Recommended changes Edition: Cite the applicable edition of the volume.
shall be made by the owner (user) within 1 yr. Subject: Cite the applicable paragraph number(s)
and the relevant heading(s).
SECTION VI: REQUIREMENTS AND Question: Phrase the question as a request for an
RECOMMENDATIONS interpretation of a specific provision suit
able for general understanding and use,
Requirements of this Standard are characterized by
not as a request for approval of a proprie
use of the word shall. Recommendations of this Standard tary design or situation. Plans or draw
are characterized by the word should.
ings that explain the question may be
submitted to clarify the question. How
SECTION VII: USE OF MEASUREMENT UNITS ever, they should not contain any proprie
tary names or information.
This Standard contains SI (metric) units as well as
U.S. Customary units. The values stated in U.S. Upon receipt by the Secretary, the request will be
Customary units are to be regarded as the standard. forwarded to the relevant B30 Subcommittee for a draft
The SI units are a direct (soft) conversion from the U.S. response, which will then be subject to approval by the
Customary units. B30 Standard Committee prior to its formal issuance.
Interpretations to the B30 Standard will be published
in the subsequent edition of the respective volume, and
SECTION VIII: REQUESTS FOR REVISION
will be available online at http://cstools.asme.org/.
The B30 Standard Committee will consider requests
for revision of any of the volumes within the
SECTION X: ADDITIONAL GUIDANCE
B30 Standard. Such requests should be directed to
The equipment covered by the B30 Standard is subject
Secretary, B30 Standard Committee
to hazards that cannot be abated by mechanical means,
ASME Codes and Standards
but only by the exercise of intelligence, care, and com
Two Park Avenue
mon sense. It is therefore essential to have personnel
New York, NY 10016-5990
involved in the use and operation of equipment who
Requests should be in the following format: are competent, careful, physically and mentally quali
fied, and trained in the proper operation of the equip
Volume: Cite the designation and title of the
ment and the handling of loads. Serious hazards include,
volume.
but are not limited to, improper or inadequate mainte
Edition: Cite the applicable edition of the volume.
nance, overloading, dropping or slipping of the load,
Subject: Cite the applicable paragraph number(s)
obstructing the free passage of the load, and using equip
and the relevant heading(s).
ment for a purpose for which it was not intended or
Request: Indicate the suggested revision.
designed.
Rationale: State the rationale for the suggested
The B30 Standard Committee fully realizes the impor
revision.
tance of proper design factors, minimum or maximum
Upon receipt by the Secretary, the request will be dimensions, and other limiting criteria of wire rope or
forwarded to the relevant B30 Subcommittee for consid chain and their fastenings, sheaves, sprockets, drums,
eration and action. Correspondence will be provided to and similar equipment covered by the standard, all of

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which are closely connected with safety. Sizes, strengths, (e) the number, size, and arrangement of sheaves or
and similar criteria are dependent on many different other parts
factors, often varying with the installation and uses. (f) environmental conditions causing corrosion or
These factors depend on wear
(a) the condition of the equipment or material (g) many variables that must be considered in each
(b) the loads individual case
(c) the acceleration or speed of the ropes, chains, The requirements and recommendations provided in
sheaves, sprockets, or drums the volumes must be interpreted accordingly, and judg
(ci) the type of attachments ment used in determining their application.

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ASME B30.14-2015
SUMMARY OF CHANGES

Following approval by the ASME B30 Committee and ASME, and after public review,
ASME B30.14-2015 was approved by the American National Standards Institute on
November 11, 2015.

ASME B30.14-2015 includes the following changes identified by (15).
Page Location Change
viii—x B30 Standard Introduction Updated
1, 2 Chapter 14-0 Chapter title revised
Section 14-0.2 (1) Definitions of appointed, authorized,
and designated person deleted
(2) Definition of operational aid revised
3 Section 14-0.3 (1) Redesignated as 14-0.5 and revised
(2) New Sections 14-0.3 and 14-0.4 added
4 14-1.1.1 (1) Subparagraph (a) in-text table revised
(2) Subparagraphs (c) and (d) revised
(3) Subparagraph (e) added
14-1.1.3 Revised
14-1.1.4 Subparagraphs (b) and (d) revised
5 Fig.14-1.1.4-1 Revised
Section 14-1.2 (1) New subparagraph (a) added, old
subparagraph (a) redesignated as (b)
(2) Subparagraph (d) revised
14-1.2.1 Subparagraph (b)(3) revised
6 14-1.3.1 Subparagraphs (c) and (d)(2) revised
14-1.3.2 (1) Subparagraph (a)(2)(-b) revised
(2) Subparagraph (c) deleted
7 14-1.5.1 Revised
14-1.5.3 Subparagraph (c) revised
8 14-1.7.1 Subparagraphs (e) and (f) revised
14-1.7.2 Subparagraph (b) revised
14-1.7.4 Revised
14-1.8.1 Subparagraph (b) revised
10 Section 14-2.1 General section added
14-2.1.1 Revised
14-2.1.2 Revised
14-2.1.3 Revised

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Page Location Change
11 14-2.1.5 Revised
14-2.1.6 Revised
14-2.2.1 Subparagraph (a)(5) deleted and
subsequent subparagraph redesignated
14-2.2.2 Subparagraph (b)(3) revised
14-2.3.1 Subparagraph (a) revised
12, 13 Section 14-2.4 General section added
14-2.4.1 Subparagraphs (a), (c), and (d) revised
14-2.4.2 Subparagraphs (a), (b)(1), and (b)(6)
revised
14—17 14-3.1.1 Revised
14-3.1.2 Subparagraphs (b) and (c) revised
14-3.1.3 Revised in its entirety
14-3.2.1 Subparagraphs (b) and (c)(2) revised
18 14-3.2.3 Subparagraphs (k) and (n) revised
14-3.2.5 Subparagraph (b) revised
14-3.2.6 (1) Subparagraph (a) deleted
(2) Former subparagraph (b) revised and
redesignated as (a); former
subparagraph (c) redesignated as (b)
19 14-3.3.3 Revised
14-3.3.4 Revised
Section 14-3.4 Revised to only include operating near
electrical power lines
14-3.4.1 Revised
20 Section 14-3.5 Miscellaneous items moved from Section
14-3.4 and revised
23 Fig. 14-3.4.1-1 Redesignated and revised
Table 14-3.4.1-1 Redesignated and revised

SPECIAL NOTE:
The interpretations to ASME B30.14 are included in this edition as a separate section for the
user’s convenience.

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ASME B30.14-2015

SIDE BOOM TRACTORS

Chapter 14-0 (15)

Scope, Definitions, Translation, Personnel Competence, and
References

SECTION 14-0.1: SCOPE OF B30.14 boom stop: an automatic device used to limit the angle
of the boom at the highest position.
Volume B30.14 includes provisions that apply to the
construction, installation, operation, inspection, testing, brake: a device used for retarding or stopping motion
and maintenance of side boom tractors powered by an by friction or power means.
internal combustion engine used for pipe laying or lift
clutch: a friction, electromagnetic, hydraulic, pneumatic,
ing operations, utilizing a lifting boom, drum, wire rope,
or positive mechanical device for engagement or disen
and/or hydraulic cylinders.
gagement of power.
The requirements for a side boom tractor that is used
for other than lifting operations such as when converted counterweight: weight used to supplement the weight of
for excavating work, and a side boom tractor with a the machine in providing stability for lifting loads.
rated load of 1 ton or less, are not included in this
drum: the cylindrical members around which ropes are
Volume.
wound.
dynamic loading: loads introduced into the machine or
(15) SECTION 14-0.2: DEFINITIONS its components by forces in motion.
accessory: a secondary part or assembly of parts that load: the external load, in pounds (kilograms) applied
contributes to the effectiveness of a machine. to the side boom tractor, including the weight of load-
administrative or regulatory authority: governmental attaching equipment such as load blocks, shackles, and
agency or the employer in the absence of governmental slings.
jurisdiction. load block, lower: the assembly of hook or shackle, swivel,
angled load: any load, other than freely suspended loads, sheaves, pins, and frame suspended by the hoisting
which does not act upon the side boom tractor in a ropes.
purely vertical manner. load block, upper: the assembly of hook or shackle, swivel,
approved: accepted as satisfactory by a duly constituted sheaves, pins, and frame suspended from the boom
administrative or regulatory authority. point.
axle: the shaft or spindle with which or about which a load capacity, maximum: the capacity for which the tractor
wheel rotates. On side boom tractors and wheel-type is designed (refer to ISO 8813-1992).
tractors it refers to an assembly that includes the shaft,
housing, and gearing from the shaft to the wheel, load hoist: a hoist drum and rope reeving system used
sprocket, or equivalent device. for lifting and lowering loads.

boom: a member hinged to the side of the tractor with load monitoring and indicating system: any system with
the outer end supported by a rope system or hydraulic the capabilities to measure, advise the operatoi and
cylinder(s). provide appropriate visual and audible warnings for
(a) weight of load being lifted
boom hoist: a hoist drum and rope reeving system used
to raise and lower the boom. The rope system may be (b) the percentage of rated load being lifted
all live reeving or a combination of live reeving and load movement: any movement of the load, vertically or
pendants. The boom may also be raised and lowered by horizontally, relative to either the ground or the side
a hydraulic cylinder(s). boom tractor.

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ASME B30.14-2015

load overhang, track-type tractor: the horizontal distance Fig. 14-0.2-1 Track-Type Side Boom Tractor
from the center of the load hook to the outer edge of
the outer track rail en the boom side.
load overhang, wheel-type tractor: the horizontal distance
from the center of the load hook measured perpendicular
to the center line of the tires on the boom side.
load, rated: side boom tractor ratings in pounds (kilo
grams) established by the manufacturer in accordance
with Section 14-1.1.
minimum breaking force: the minimum load at which a
new and unused wire rope will break when loaded to
destruction in direct tension. (a) (b)
operational aid: an accessory that provides information
to facilitate operation of a side boom tractor or that
takes control of particular functions without action of Fig. 14-0.2-2 WheeL-Type Side Boom Tractor
the operator when a limiting condition is sensed. Exam
ples of such devices include, but are not limited to, the
following:
(a) anti-two-block device
(b) rated capacity indicator
(c) boom angle or load overhang indicator
(d) load indicator or load monitoring and indication

&
system
(e) boom hoist disconnect device
(f) machine level indicator
qualfied person: a person who, by possession of a recog
(a) (b)
nized degree in an applicable field, or certificate of pro
fessional standing, or who, by extensive knowledge,
training, and experience, has successfully demonstrated
side loading: a load applied at an angle to the vertical
the ability to solve or resolve problems relating to the
plane of the boom.
subject matter and work.
reeving: a rope system in which the rope travels around stabilizers: extendable or fixed metal arms attached to the
drums and sheaves. mounting base, that rest on supports at the outer ends.
rope: refers to wire rope unless otherwise specified. standing rope (guy): a supporting rope that maintains a
constant distance between the points of attachment to
service, heavy: service that involves operation within the the two components connected by the rope.
rated load limit that exceeds normal service.
structural competence: the ability of the machine and its
service, normal: distributed service that involves opera
components to withstand the stresses imposed by
tion with randomly distributed loads within the rated
applied loads.
load limit, or uniform loads less than 65% of rated load
for not more than 25% of the time. tackle: an assembly of ropes arid sheaves arranged for
lifting and pulling.
service, severe: service that involves normal or heavy ser
vice with abnormal operating conditions. tipping condition, track-type tractor: the load on the hook
shall: if a provision is of a mandatory nature it is indi at the given load overhang distance that will cause the
cated by the use of the word shall. track roller of the track opposite the boom side to lift
1/4
in. (6.4 mm) from the rail.
should: if a provision is of an advisory nature, it is indi
cated by the use of the word should and is a recommenda tipping condition, wheel-type tractor: the load on the hook,
tion to be considered, the advisability of which depends in pounds (kilograms), at the given load overhang dis
on the facts in each situation. tance that will cause the wheel on the side opposite the
boom to leave the ground 146 in. (1.6 mm).
side booni tractor: a track-type (Fig. 14-0.2-1) or wheel-
type tractor (Fig. 14-0.2-2) having a boom mounted on transit: the moving or transporting of a side boom tractor
the side of the tractor, used for lifting, lowering, or trans from one location to another.
porting a load suspended on the load hook. The boom or travel: the function of the machine moving from one
hook can be lifted or lowered in a vertical direction only. location to another, on a job site.

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ASME B30.14-2015

travel mechanism: the machinery involved in providing SECTION 14-0.4: PERSONNEL COMPETENCE (15)
travel.
Persons performing the functions identified in this
two-blocking: the condition in which the lower load block Volume shall through education, training, experience,
or hook assembly comes in contact with the upper block skill, and physical fitness, as necessary, be competent
or boom point sheave assembly. and capable to perform the functions as determined by
wheelbase: distance between centers of front and rear the employer or employer’s representative.
axles. For a multiple-axle assembly, the axle center for
wheelbase measurement is taken as the midpoint of the
SECTION 14-0.5: REFERENCES (15)
assembly.
The following is a list of publications referenced in
this Standard.
(15) SECTION 14-0.3: TRANSLATIONS OF SAFETY-
RELATED INFORMATION AND ANSI Z26.1-1990, Safety Code for Glazing Materials for
CONTROL DESIGNATIONS Glazing Motor Vehicle Operating on Land Highways
Publisher: American National Standards Institute
(a) Translation of non-English documentation into
English (ANSI), 25 West 43rd Street, New York, NY 10036
(www.ansi.org)
(1) The wording of written non-English safety
information and manuals regarding use, inspection, and ASME B30.10-2010, Hooks
maintenance shall be translated into English using Publisher: The American Society of Mechanical
professional translation industry standards, which Engineers (ASME), Two Park Avenue, New York, NY
include, but are not limited to, the following: 10016-5990 (www.asme.org)
(-a) translation of the complete paragraph mes
sage, instead of word by word AWS D14.3-05, Specification for Welding Earthnioving
(-h) grammatical accuracy and Construction Equipment1
(-c) respectfulness of the source document con Publisher: American Welding Society (AWS), 8669 NW
tent without omitting or expanding the text 36 Street, No. 130, Miami, FL 33166 (www.aws.org)
(-d) accurate translation of the terminology 150 2867:2011, Earth-Moving Machinery Access
(-e) reflection of the level of sophistication of the Systems
original document ISO 7000:2004, Graphical Symbols for Use on Equipment
(2) The finished translation shall be verified for ISO 8813:1992, Earth-Moving Machinery Lift Capacity —

compliance with (a)(1)(-a) through (a)(1)(-e) above by a of Pipelayers and Wheeled Tractors or Loaders
qualified person having an understanding of the techrti Equipped With Side Boom
cal content of the subject matter. ISO 13850:2006, Safety of Machinery Emergency
—

(3) Pictograms used to identify controls shall be Stop —Principles for Design
described in the manuals. The pictograms should Publisher: International Organization for Standardiza
comply with ISO 7000, or another recognized source, if tion (ISO) Central Secretariat, Chemin de Blandonnet
previously defined. The text of the descriptions shall 8, Case Postale 401, 1214 Vernier, Geneva, Switzerland
meet the criteria of (a)(1) and (a)(2) above. (www.iso.org)
(b) Any non-English documentation provided in
addition to English shall be translated and reviewed in
Copies may also be obtained from the American National
accordance with the requirements listed in (a)(1) and Standards Institute (ANSI), 25 West 43rd Street, New York, NY
(a)(2) above. 10036. (www.ansi.org)

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ASME B30.llt-201S

Chapter 14-1
Construction and Characteristics

SECTION 14-1.1: LOAD RATINGS 14-1.1.2 Load Ratings Where Structural
—

Competence or Hydraulic Capacity Governs
(15) 14-1.1.1 Load Ratings Where Stability Governs
— Lifting Performance
Lifting Performance
Load ratings are governed by the stability of the side
Load ratings at the minimum load overhang may be boom tractor, i.e., the load required to tip the side boom
based on structural competence rather than stability. tractor at a given load overhang. However, in some areas
Refer to para. 14-1.1.2. of the operating range, the ratings may be governed
(a) The margin of stability for determination of load by factors other than stability, such as the conditions
ratings, with booms of stipulated lengths at stipulated described below.
load overhang for the various type of tractor mountings, (a) Load ratings at some load overhangs are governed
is established by taking a percentage of the loads that by structural competence or hydraulic capacity, and side
will produce a condition of tipping. The load ratings boom tractor stability alone cannot be used as a basis
shall not exceed the following percentages for side boom of load rating.
tractors, with the indicated types of mounting under (b) Manufacturer’s recommendations shall not be
conditions stipulated in (b) and (c) below. exceeded.

Rated Load 14-1.1.3 Load Ratings Where Dynamic Factors
—
(15)
(Percent of Maximum Load Govern Lifting Performance
Capacity Based on Iso 8813
Type of Machine Test Procedure) When dynamic operating conditions exist, appro
Track-type tractor
priate reductions shall apply to the rated load capacity
85%
Wheel-type tractor 65°k
values. Refer to para. 14-3.2.4.

(b) The following stipulations shall govern the appli 14-1.1.4 Load Rating Chart (15)
cation of the values in (a) above for side boom tractors:
A load rating chart, based on Fig. 14-1.1.4-I, with
(1) Lift capacity from which ratings are determined legible letters and figures shall be provided with each
shall be applied under static conditions only, i.e., with side boom tractor and affixed in a location visible to the
out dynamic effect of lifting, lowering, traveling, or lat operator while seated at the control station. The data
eral movement. and information to be provided on these charts shall
(2) The weight of auxiliary handling devices, such include, but not necessarily be limited to, the following:
as slings, shall be considered a part of the load. (a) a range of manufacturer’s recommended side
(c) Stipulations governing the application of the val boom tractor rated loads at stated static operating load
ues in (a) above for track-type side boom tractors and overhang for permissible boom lengths and for all con
wheel-type side boom tractors shall be in accordance figurations and modifications, including, but not limited
with tractor side boom testing procedure ISO 8813. to, stabilizers or counterweight positioning.
(d) The effectiveness of these preceding static stability (b) the basis of ratings as found in para. 14-1.1.1,
factors will be influenced by such additional factors as including the identification of ratings if based on struc
freely suspended loads, wind or ground conditions, con tural limitations. Where ratings are limited by structural
dition and inflation of rubber tires, boom lengths, competence, hydraulic capacity, or rope design factors
operating speeds for existing conditions, and in general, as shown in para. 14-1.6.1(a), such ratings shall be shown
careful and competent operation. All of these factors and emphasized on the rating charts and by listing the
shall be taken into account by the operator. special provisions of para. 14-3.2.1(c).
(e) When lifting on slopes or unusual ground condi (c) recommended parts of hoist reeving, size, and type
tions (soft, rocky, or frozen), or where external restraints of rope for various hook loads shall be shown on the
(e.g., winch tractors) are utilized for stability, the appro rating chart and in the operating manual.
priate rated load capacity shall be determined by a quali (d) a rating chart shall be prepared by a qualified
fied person. person for all modifications, including boom length.

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ASME B30.14-2015

Fig. 14-1.1.4-1 Load Rating Chart (15)

See para. 14-1.1.4(b)

capacity per ISO 8813

>
0 Rated load per ASME B30.14
C’,

C’,
c-i
-J

0
4ft
Load Overhang, ft (ml

(15) SECTION 14-1.2: OPERATIONAL AIDS 14-1.2.1 Motion and Performance Indicators (15)
(a) Side boom tractors shall have an operational aid
that displays the following: (a) Rated Capacitc,i Indicator. The rated capacity indica
tor shall calculate and display the rated load capacity
(1) rated capacity
on level ground of the side boom tractor. The accuracy
(2) weight of the load on hook of the capacity indicating system shall be such that the
(3) load overhang indicated capacity is within the tolerance 100% (+0%
(4) slope and —5%) of the actual rated load capacity on level
(b) The instructions provided by the side boom tractor ground.
manufacturer or the device manufacturer, or both, shall (b) Load Indicator
describe the purpose of the device.
(1) The load indicator system shall measure and
(c) The side boom tractor mariufacturer or the device display the weight of the load being lifted.
manufacturer, or both, shall provide recommendations
for continued operation or shutdown of the side boom (2) The load indicator shall indicate the portion
tractor if the operational aids are inoperative or malfunc (percentage) of rated load, on level ground.
tioning. Without such recommendations, and without (3) In out-of-level ground operation, the opera
prohibitions, from the manufacturer against further tional aid/device should provide the portion (percent
operation, the operational constraints of para. 14-1.1.1(d) age) of rated load for the applicable slope conditions.
shall be observed. (4) The accuracy of the load-indicator system shall
(d) Operational aids shall include the capabilities and be such that the indicated load is within the tolerance
accuracies as described in this section. The load limits l00% (+5% and —0%) of the lifted load weight.
specified relate to the maximum rated load capacity of (c) Load Overlia rig Indicator
the side boom tractor as described in Section 14-1.1. (1) The load overhang indicator shall indicate the
(1) All displays shall be visible from the operator’s overhang of the load.
position. (2) The accuracy of the load overhang indicator
(2) The devices shall be effective for operation in shall be such that when the rated capacity is applied,
an ambient temperature of —40°F to +140°F (—40°C to the load overhang indicated shall be within the tolerance
+60°C). of 100% (+5% and —0%) of the actual load overhang.

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ASME 830.14-2015

(d) Slope Indicator. The slope (level) indicator shall (e) The drum diameter shall provide a first layer rope
indicate the extent that the side boom tractor chassis is pitch diameter of not less than 10 times the nominal
out-of-level. Accuracy of slope indication shall be within diameter of the rope used.
2 deg of actual slope. Lateral and longitudinal slope
should be indicated separately. 14-1.3.2 Load Hoist Mechanism (15)

(a) Load Hoist Drums. The load hoist drum assemblies
14-1.2.2 Machine Configuration and Capacity Setting
shall have power and operational characteristics to per
Provision should be made for a qualified person to form all load lifting and lowering functions required in
modify the configuration information utilized in the side boom tractor service when operated under recom
rated load capacity calculations to accurately reflect mended conditions.
changes from original (as manufactured) configuration. (7) Where brakes and clutches are used to control
This capability shall not allow any increase from the the motion of the load hoist drums, they shall be of size
original manufacturer’s rated capacity, but may include, and thermal capacity to control maximum load capacity
but not be limited to, changes in boom length (±), rigging with minimum recommended reeving (when maxintum
(hooks and blocks) weight, and reductions in effective load capacity is being lowered with near maximum
counterweight. boom length on operations involving long lowering dis
tances, power controlled lowering usually is necessary
to reduce demand on the load brake).
SECTION 14-1.3: BOOM HOIST AND LOAD HOIST
(2) Load hoist drums shall have rope capacity with
MECHANISMS
recommended rope size and reeving to perform side
(15) 14-1.3.1 Boom Hoist Mechanism boom tractor service as defined in Section 14-0.1, within
the range of boom lengths, operating load overhang,
When using recommended boom hoist reeving or
and vertical lifts stipulated by the manufacturer.
hydraulic cylinder system with maximum load capacity
suspended, the boom hoist mechanism shall be capable (-a) Not less than two full wraps of rope shall
remain on the drum when the hook is in its extreme
of raising or lowering the boom, stopping boom motion,
and holding it stationary without attention from the low working position.
operator. (-b) The rope end shall be anchored by a clamp
attached to the drum or by a wedge socket arrangement
(a) The boom hoist mechanism shall be provided with
a clutch or power engaging device permitting immediate approved by the side boom tractor or rope manufacturer.
starting or stopping of the boom motion. The boom hoist The rope clamp shall be tightened evenly to the manu
mechanism shall also be provided with a self-setting facturer’s recommended torque.
brake or hydraulic system, capable of supporting the (-c) Drums shall be provided with a means to
maximum load capacity. prevent rope from jumping off the drum.
(b) Brakes and clutches shall be provided with adjust (-d) The drum flange shall extend a minimum of
1/2 in. (13 mm) or one-half rope diameter, whichever is
ments where necessary to compensate for wear and to
maintain adequate force in springs where used. larger, over the top layer of rope at all times during
(c) The boom hoist mechanism shall be provided with operation.
a locking device or system to prevent inadvertent low (3) Diameter of the load hoist drums shall provide
ering of the boom. a first layer rope pitch diameter of no less than 10 times
(ci) The boom hoist drum shall have sufficient rope the nominal diameter for the rope used.
capacity to operate the boom at all positions from hori (4) Positive means, controllable from the operator’s
zontal to the highest angle utilizing recontmended reev station, shall be provided to prevent the drum from
ing and rope diameter. rotating in the lowering direction and be capable of
(1) Not less than two full wraps of rope shall remain holding the maximum load capacity without further
on the drum with boom point lowered to the level of attention from the operator.
the tractor supporting surface. (b) Load Hoist Brakes. When power operated brakes,
(2) The rope end shall be anchored by a clamp having no continuous mechanical linkage between the
attached to the drum or by a wedge socket arrangement actuating and braking means, are used for controlling
approved by the side boom tractor or rope manufacturer. loads, an automatic means shall be provided to prevent
The rope clamp shall be tightened evenly to the manu the load from falling in the event of loss of brake actuat
facturer’s recommended torque. ing power.
(3) The drum flange shall extend a minimum of
1/2 in. (13 mm) or one-half rope diameter, whichever is 14-1.3.3 Adjustments
larger, over the top layer of rope at all times during Brakes and clutches shall be provided with adjust
operation. ments where necessary to compensate for lining wear.

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ASME B30.14-2015

SECTION 14-1.4: SIDE BOOM TRACTOR TRAVEL the special provisions of para. 14-3.2.1(c) shall be
followed.
14-1.4.1 Travel Controls
(c) The design factors specified above shall be deter
The controls for the travel function shall be located mined on the basis of the manufacturer’s ratings, with
at the operator’s station. approved reeving, published minimum breaking force
of new ropes, and with load and boom stationary.
14-1.4.2 TraveL Brakes and Locks
Brakes or other locking means shall be provided to 14-1.6.2 Ropes
hold the machine stationary within the limits of traction,
(a) The hoist rope shall be of a construction recom
during working cycles on level grade or while the
mended for side boom tractor service. Rotation resistant
machine is standing on maximum grade recommended
rope shall not be used.
for travel. Such brakes or locks shall be arranged to
remain in engagement in event of loss of operating
(b) End terminations shall be done in the manner
specified by the manufacturer of side boom tractoi the
pressure.
wire rope, or the fitting.
(c) If a load is supported by more than one part of
SECTION 14-1.5: CONTROLS rope, the tension in the parts shall be equalized.
(d) Wherever exposed to temperatures at which fiber
(15) 14-1.5.1 Side Boom Tractor Operation
cores would be damaged, rope having an independent
All controls used during normal side boom tractor wire-rope or wire-stand core, or other temperature-
operations shall be located within reach of the operator damage resistant core shall be used.
while seated at the operator’s station, and controls shall
be labeled as to function (direction). 14-1.6.3 Reeving Accessories
14-1.5.2 ControL Forces and Movement (a) Eye splices shall be made in accordance with man
ufacturer’s recommendations and rope thimbles shall
For hoisting controls, the following shall be provided:
be used in the eye splices.
(a) forces not greater than 35 lb (155 N) on hand levers
(b) Wire rope clips shall be drop-forged steel of the
(b) travel distance on hand levers not greater than
15 in. (380 mm) from neutral position on two-way levers single saddle-type (U-bolt) or double saddle-type clip.
and not greater than 24 in. (610 mm) on one-way levers Malleable cast iron clips shall not be used. For spacing,
number of clips, and torque values, refer to the clip
(15) 14-1.5.3 Power Plant ControLs manufacturer’s recommendation. Wire rope clips
attached with U-bolts shall have the U-bolt over the
Controls for operating the power plant shall be within
dead end of the rope and the live rope resting in the
reach of the operator and shall include the following
clip saddle. Clips shall be tightened evenly to tile recom
means:
mended torque. After the initial load is applied to the
(a) start and stop rope, the clip nuts shall be retightened to the recom
(b) control speed mended torque to compensate for any decrease in rope
(c) emergency stop shall comply with ISO 13850 diameter caused by the load. Rope clip nuts should be
(d) shifting selective transmission retightened periodically to compensate for any further
decrease in rope diameter during usage.
14-1.5.4 Engine Clutch
(c) Swaged, poured, compressed, or wedge socket fit
All side boom tractors having mechanical draw works tings shall be applied as recommended by the rope, side
shall be provided with a means for disengaging power boom tractor, or fitting manufacturer.
to the draw works. The control shall be within reach
from the operator’s station. 14-1.6.4 Sheaves
(a) Sheave grooves shall be free from surface defects
SECTION 14-1.6: ROPES AND REEVING that could cause rope damage. The cross-sectional radius
ACCESSORIES at the bottom of the groove should be such as to form
a close-fitting saddle for the size of rope used. The sides
14-1.6.1 Rope Design Factors of the groove shall be tapered outward and rounded at
(a) When supporting rated loads (including load sus the rim to facilitate entrance of the rope into tile groove.
pensions), the design factor for live or running ropes Flange rims shall run true about the axis of rotation.
that wind on drums or pass over sheaves shall be not (b) Sheaves carrying ropes that can be momentarily
less than 4.0. unloaded shall be provided with close-fittings guards
(b) When supporting the maximum load capacity or other suitable devices to guide the rope back into the
(including load suspensions) [refer to para. 14-1.1.4(b)], groove when the load is applied again.

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ASME 830.14-2015

(c) Sheaves in the lower load block shall be equipped 14-1.7.3 Access
with close-fitting guards that will prevent ropes from
On all crawler and wheel-mounted side boom tractors,
becoming fouled when the block is lying on the ground
handholds and steps shall be provided, as needed, to
with ropes loose.
facilitate entrance to and exit from the operator’s cab.
(d) Means shall be provided to prevent chafing of the
ropes. 14-1.7.4 Cab Roof (15)
(e) All sheave bearings shall be provided with means Where necessary for rigging or service requirements,
for lubrication. Permanently lubricated bearings are a ladder or steps shall be provided to give access to
acceptable. a cab roof. The ladder, steps, and weight-supporting
capability of the cab roof shall conform to the require
14-1.6.5 Sheave Sizes ments of ISO 2867.
(a) Boom hoisting sheaves shall have pitch diameters
of not less than 10 times the nominal diameter of the 14-1.7.5 Noise Exposure
rope used. The noise level at the operator’s station shall be a
(b) Load hoisting sheaves shall have pitch diameters consideration in the manufacture of new tractors.
of not less than 10 times the nominal diameter of the
rope used. SECTION 14-1.8: GENERAL. REQUIREMENTS
(c) Load block sheaves shall have pitch diameters of
not less than 10 times the nominal diameter of the 14-1.8.1 Booms (15)
rope used. (a) Automatic means shall be provided to stop boom
motion when the maximum permissible boom angle is
reached.
SECTION 14-1.7: CABS (b) Booms shall meet the performance requirements
of side boom tractor tests in ISO 8813.
(15) 14-1.7.1 Construction
(a) Cabs, if provided, shall be constructed to enclose 14-1.8.2 Hoist Limiting
the operator’s station to provide protection from the Two-block damage prevention devices or designs
weather, and shall include all boom and tractor controls. should be utilized, or hoist limiting devices should be
(b) Windows or openings shall be provided in the cab provided, e.g., anti-two-block systems. Such systems or
or operator’s compartment on all four sides of the cab designs should prevent damage from either hook block
for maximum visibility. or boom movement.
(c) All cab glazing shall be safety glazing material as
defined in ANSI Z26.1. 14-1.8.3 Exhaust Gases
(d) Visibility on the boom side of the cab shall be such Engine exhaust gases shall be piped to the outside of
that the uppermost point of the boom is visible at all the cab and discharged in a direction away from the
times. operator. All exhaust pipes shall be guarded or insulated
(e) If an operator’s station precludes a cab having in areas where contact by personnel is probable in the
doors on both sides, an alternate exit shall be provided performance of normal duties.
that complies with ISO 2867.
14-1.8.4 StabiLizers (WheeL-Type Side Boom
(f) All cab doors, whether of sliding or swinging type, Tractors)
shall comply with ISO 2867 and shall be restrained from
inadvertent opening or closing while traveling or (a) Means shall be provided to hold all stabilizers in
operating the machine. The door adjacent to the opera the retracted position while traveling and in the
tor, if the swinging type, should open outward and, if extended position when blocked for lifting. When stabi
the sliding type, should slide rearward to open. lizers are used, all stabilizers shall be extended.
(g) A clear passageway shall be provided from the (b) Power-actuated jacks, where used, shall be pro
operator’s station to an exit door on the operator’s side. vided with means to prevent loss of support under load.