1、AmericAn nAtionAl StAndArdANSI/ASSE A10.19 2017Safety Requirements for Pile Installationand Extraction OperationsAmerican National Standard for Construction and Demolition OperationsAmericAn Society of SAfety engineerS4Casselogo-1200dpi_vector-1c-outline.pdf 1 1/20/2012 1:31:55 PMANSI/ASSE A10.19 20
2、17ANSI/ASSE A10.19 2017This is an ASSE-produced standard. It is copyright protected and may not be reproduced or distributed to any other party.The information and materials contained in this publication have been developed from sources believed to be reliable. However, the American Society of Safet
3、y Engineers (ASSE) as secretariat of the ANSI accredited A10 Committee or individual committee members accept no legal responsibility for the correctness or completeness of this material or its application to specific factual situations. By publication of this standard, ASSE or the A10 Committee doe
4、s not ensure that adherence to these recommendations will protect the safety or health of any persons, or preserve property. This is an ASSE-produced standard. It is copyright protected and may not be reproduced or distributed to any other party.ANSI ANSI/ASSE A10.19 2017 American National Standard
5、Construction and Demolition Operations Safety Requirements for Pile Installation and Extraction Operations Secretariat American Society of Safety Engineers 520 N. Northwest Highway Park Ridge, Illinois 60068 Approved June 15, 2017 American National Standards Institute, Inc. This is an ASSE-produced
6、standard. It is copyright protected and may not be reproduced or distributed to any other party.Approval of an American National Standard requires verification by ANSI that the requirements for due process, consensus, and other criteria for approval have been met by the standards developer. Consensu
7、s is established when, in the judgment of the ANSI Board of Standards Review, substantial agreement has been reached by directly and materially affected interests. Substantial agreement means much more than a simple majority, but not necessarily unanimity. Consensus requires that all views and objec
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9、sing products, processes, or procedures not conforming to the standards. The American National Standards Institute does not develop standards and will in no circumstance give an interpretation of any American National Standard. Moreover, no person shall have the right or authority to issue an interp
10、retation of an American National Standard in the name of the American National Standards Institute. Requests for interpretation should be addressed to the secretariat or sponsor whose name appears on the title page of this standard. Caution Notice: This American National Standard may be revised or w
11、ithdrawn at any time. The procedures of the American National Standards Institute requires that action be taken periodically to reaffirm, revise, or withdraw this standard. Purchasers of American National Standards may receive current information on all standards by calling or writing the American N
12、ational Standards Institute. Published September 2017 by American Society of Safety Engineers 520 N. Northwest Highway Park Ridge, Illinois 60068 (847) 699-2929 www.asse.org Copyright 2017 by American Society of Safety Engineers All Rights Reserved. No part of this publication may be reproduced in a
13、ny form, in an electronic retrieval system or otherwise, without the prior written permission of the publisher. Printed in the United States of America American National Standard This is an ASSE-produced standard. It is copyright protected and may not be reproduced or distributed to any other party.
14、Foreword (This Foreword is not a part of American National Standard A10.19-2017.) This standard is one of a series of safety standards that have been formulated by the Accredited Standards Committee on Safety in Construction and Demolition Operations, A10. It is expected that the standards in the A1
15、0 series will find a major application in industry, serving as a guide to contractors, labor and equipment manufacturers. For the convenience of users, a list of existing and proposed standards in the A10 series for Safety Requirements in Construction and Demolition Operations follows. A10.1 Pre-Pro
16、ject it contains a well or recess on its top for cushion material and for seating an anvil (if used). Its bottom is formed to accept a specific shape of pile, along with its cushion (if used). Its outside incorporates a lug or insert slot for attachment to the lead system. A driving head is also ref
17、erred to as an anvil block, bonnet, cap, helmet, follow cap, rider cap or shield. 3.14 Fall. A measure of a rigging components vertical length. 3.15 Fall Zone. The area (including but not limited to the area directly beneath the load) in which it is reasonably foreseeable that partially or completel
18、y suspended materials could fall in the event of an accident. 3.16 Follower. An extension used between a pile and pile hammer that transmits blows to the pile when the pile head is either below the reach of the pile hammer (below the guides/leads) or under water. A follower is commonly a section of
19、pipe or “H” pile with connections that match both the pile hammer and the pile being driven. 3.17 Ground Conditions. The condition of the ground as it relates to its adequacy for support of pile driving equipment and stored materials, including the grounds slope, compaction, and firmness. 3.18 Guide
20、 Rail. That part of the pile hammer leads which forms a pathway for the pile hammer and which consists of parallel members that mate with the side channels of the pile hammer. Guide rails are also referred to as “Lead Rails” or “Hammer Guides”. 3.19 Hammer, Drop Impact. A pile hammer (also referred
21、to as “Drop Hammer” or “Hair Pin Hammer”). For purposes of this standard, there are four types of drop impact hammers: 1) Cable Operated Drop Hammer. A drop impact (pile) hammer consisting of a machine lifted weight which is allowed to free fall to drive the pile. 2) Steam Drop Hammer. A drop impact
22、 hammer consisting of a cylinder which acts as the falling weight which is lifted by steam pressure. 3) Hydraulic Drop Hammer. A drop impact hammer consisting of a segmented ram, which is lifted by hydraulic pressure to a pre-set height. The pile hammer is then allowed to fall onto a driving cap. Th
23、e weight and height of the ram can be varied to suit site conditions. 4) Diesel Drop Hammer. A drop impact hammer consisting of a cylinder, which acts as the falling weight, which is operated by compression-ignition as a result of the weight falling and compressing the contents of the cylinder. 3.20
24、 Hammer Energy. The amount of potential energy available to transfer from a pile hammer to a pile, usually measured in foot-pounds. 3.21 Kicker. The strut between the crane and the pile leads (also referred to as a “Spotter”). 3.22 Leads. Two parallel members of a wooden or steel frame for guiding t
25、he pile This is an ASSE-produced standard. It is copyright protected and may not be reproduced or distributed to any other party.AMERICAN NATIONAL STANDARD A10.19 2017 13 hammer and piles in correct alignment. There are three types of leads: 1) Fixed Leads. Leads which are fixed to a pile rig at its
26、 top and bottom. 2) Swinging Leads. Leads which are supported at the top by a cable attached to a pile rig. 3) Semi-Fixed or Telescopic Leads. Leads which are allowed to translate vertically in relation to a pile rigs boom tip. 3.23 Lifting Bail. Rigging apparatus used to attach a crane hoist line t
27、o the pile driving equipment. 3.24 Mandrel. A full-length steel core set inside a thin shell casing for cast-in-place concrete piles. A mandrel assists in maintaining pile alignment and prevents the shell from collapsing. It is removed after driving is complete. 3.25 Moonbeam. A device attached to t
28、he end of a lead brace, which will allow a pile to be driven with a side batter pile. 3.26 Penetration. The amount of down-ward movement of a pile measured in blows. 3.27 Pile. A concrete, steel, wood, synthetic plastic or aluminum element which is driven, pressed or otherwise introduced into the so
29、il, usually to carry a vertical load or to provide lateral support. 3.28 Pile Butt. A term commonly used in connection with timber piles. The upper or larger end of a pile closest to the pile hammer. 3.29 Pile Contractor. A contractor whose scope of work on a particular project includes the installa
30、tion and/or extraction of piles. 3.30 Pile Gate. A hinged section attached to the pile leads, at the lower end, which serves to keep the pile within the framework of the pile leads. 3.31 Pile Hammer. A device, which develops and expends the energy used to drive piles, the two main parts of which are
31、 the ram and the anvil. Also referred to as a “Pile Driver Hammer”. Pile hammers can be powered by various energy sources such as diesel, compressed air, steam, hydraulic and gravity. 3.32 Pile Head. The upper end of a pile. 3.33 Pile Rig. The crane or other type of equipment used to support the lea
32、ds and pile driving assembly during a pile driving or extraction operation. 3.34 Power Plant. A prime mover consisting of an engine and generator, hydraulic pump or compressor used to provide electricity, hydraulic power or compressed air to portable construction equipment such as a vibratory pile h
33、ammer/ extractor or impact pile hammer/extractor. 3.35 Prefabricated Pile Tips. An attachment to the end of a precast concrete pile, a steel pile, a timber/wood pile to assist the pile penetration through the strata and to assist in the prevention of damage to the pile during driving 3.36 Pre-Drilli
34、ng. A process where a hole is drilled with a continuous flight auger or a wet rotary bit to remove some soil or loosen the strata when driving the pile will displace the upper soil enough to push adjoining piles out of the proper position or limit vibration in the upper layers. 3.37 Project Construc
35、tor. A person, firm or corporation, i.e. the construction manager, general contractor, prime contractor or other entity, as designated in the project documents, responsible for supervising and controlling all construction work performed on the project. This is an ASSE-produced standard. It is copyri
36、ght protected and may not be reproduced or distributed to any other party.AMERICAN NATIONAL STANDARD A10.19 2017 14 3.38 Qualified Person. One who, by possession of a recognized degree, certificate or professional standing, and who by extensive knowledge, training and experience, has successfully de
37、monstrated their ability to solve or resolve problems relating to the subject matter, the work or the project. 3.39 Ram. The moving part of a pile hammer, consisting of a piston and a driving head, or driving head only. 3.40 Rated Speed. The number of blows per minute of a pile hammer when operating
38、 at its maximum rated efficiency. 3.41 Sheave. An assembly consisting of a pulley wheel, side plates, shaft and bearings over which a cable or rope is passed. For purposes of this standard, there are two types of sheave: 1) Deflector Sheave. A sheave used to change the direction of travel of a crane
39、s hoist line. 2) Turn-Around Sheave. A fixed sheave mounted to a pile hammer for increasing the mechanical advantage of a cranes hoisting capacity. 3.42 Sheeting Shackle. A specialized rigging assembly used to hoist and set sheet piles. 3.43 Spotter. The strut between the crane and the pile leads (a
40、lso see “Kicker”). 3.44 Spudding. The driving of a short and stout section of pile-like material into the ground to penetrate or break up hard ground strata and permit pile driving, common in the driving of timber piles. 3.45 Stroke. The length of fall of a ram. 3.46 Supporting Material. Blocking, m
41、ats, cribbing, marsh buggies or similar supporting materials or devices. 3.47 Template. A fabricated guide of almost any shape and material conforming to the specific pile layout used to align piling before driving. 3.48 Tip. The first part of a pile to penetrate the ground, also referred to as a “P
42、ile Tip”. 3.49 Trip Latch. A block in the leads of a drop impact hammer which causes the release of the pile hammers weight at a predetermined height, or a mechanical device used with a diesel hammer to pick up and release the piston to start the pile hammer. Also referred to as a “Trip Block” or “T
43、ripping Device”. 4. SITE INVESTIGATION 4.1 Prior to pile driving or extraction operations, a geotechnical report shall be developed to identify subsurface conditions and provide geotechnical conclusions and recommendations for design and construc-tion of the project. The investigation should include
44、 the following: 1) A description of the proposed project and its location. 2) A site map of the area at a scale of at least one inch to 400 feet (2.54cm to 21.9m). Geological con-ditions, topography and location of proposed structures should be identified. A copy of published geological maps should
45、also be provided. 3) A review of the geological history and history of prior excavation and fills. 4) A field reconnaissance of the site and vicinity. This is an ASSE-produced standard. It is copyright protected and may not be reproduced or distributed to any other party.AMERICAN NATIONAL STANDARD A
46、10.19 2017 15 5) Discussion of geological hazards. 6) Existing and potential ground-water conditions (i.e., natural and artificial seepage effects). 7) A discussion of the engineer-ing aspects of the site and proposed project. The discussion should address foundation types for proposed structures, r
47、etaining systems, grading considerations, stability of cut-slopes and con-structed embankments, settlement of the site and adjacent sites due to existing conditions, proposed construction and proposed surface and subsurface drainage facilities. 8) A signature, certification num-ber and stamp of a re
48、gistered professional engineer, who by training, education and/or exper-ience is qualified in the practice of geotechnical or soil engineering practices. 4.2 A site safety plan shall be prepared by the project constructor, and shall be reviewed with all employees involved in or exposed to the pile d
49、riving operations on the project. It shall include a discussion of contaminated soils, contaminated or hazardous materials on site or below grade or other environmental hazards, and their potential effect(s) on employees performing their tasks during pile driving operations. A copy of the safety plan shall be maintained at the project site and available for review until the work is complete. 4.3 If changes in the pile driving operations are made, the general site safety plan shall be changed accordingly. Such changes shall be communicated to all persons involved in
