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Position: Chinese Standard in English/DL/T 5219-2005
DL/T 5219-2005   Technical regulation for designing foundation of overhead transmission line (English Version)
Standard No.: DL/T 5219-2005 Status:superseded remind me the status change

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Language:English File Format:PDF
Word Count: 45000 words Price(USD):900.0 remind me the price change

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Implemented on:2005-6-1 Delivery: via email in 1 business day
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Standard No.: DL/T 5219-2005
English Name: Technical regulation for designing foundation of overhead transmission line
Chinese Name: 架空送电线路基础设计技术规定
Chinese Classification: P62    Power transmission and transformation engineering
Professional Classification: DL    Professional Standard - Electricity
Issued by: NDRC
Issued on: 2005-02-14
Implemented on: 2005-6-1
Status: superseded
Superseded by:DL/T 5219-2014 Technical regulation for designing foundation of overhead transmission line
DL/T 5219-2014E Technical Code for Design of Foundation of Overhead Transmission Line
Superseded on:2015-3-1
Superseding:SDGJ 62-1984
Language: English
File Format: PDF
Word Count: 45000 words
Price(USD): 900.0
Delivery: via email in 1 business day
1 Scope 1.0.1 This standard specifies the basic principles and relevant design methods for the foundation design of overhead transmission line tower. 1.0.2 This standard is applicable to the foundation design of the newly-built 35kV~500kV overhead transmission line tower. The design of the foundation of other voltage grades and communication towers may refer to this standard. 1.0.3 The foundation of the temporary overhead transmission line tower may be designed by reference to this standard, but the standard may be reduced properly. 1.0.4 The foundation of the renovated and rebuilt overhead transmission line tower may be checked or designed by reference to this standard according to the specific conditions and the existing line operation experience. 2 Normative References
Contents 1 Scope 2 Normative References 3 General Provisions 4 Terms and Symbols 4.1 Terms 4.2 Symbols 5 Basic Requirements 6 Up-pull Stability Calculation 6.1 Applicable Conditions 6.2 Shearing Method 6.3 Soil Weight Method 7 Foundation Pushing and Foundation Calculation 7.1 Foundation Pushing Calculation 7.2 Calculation of Foundation Bearing Capacity 7.3 Foundation Deformation Calculation 8 Overturning Stability Calculation 8.1 Overturning Stability Calculation of Pole Foundation 8.2 Calculation of Overturning Stability of Shallow Foundation of Narrow-foundation Steel Tower 8.3 Calculation of Overturning Stability of Deep Foundation of Narrow-foundation Steel Tower 8.4 Calculation of Overturning Stability of Foundation of Wide-foundation Steel Tower 8.5 Retaining Wall 9 Bearing Capacity Calculation and Construction Requirements of Members 9.1 Calculation of Normal Section Bearing Capacity of Main Column of Reinforced Concrete Foundation 9.2 Calculation of Normal Section Bearing Capacity of Main Column of Concrete Foundation 9.3 Calculation of Normal Section Bearing Capacity of Bottom Slab of Reinforced Concrete Foundation 9.4 Calculation of Normal Section Bearing Capacity of Bottom Slab of Reinforced Concrete Foundation 9.5 Calculation of Bearing Capacity of Reinforced Concrete Stay Wire Coil 9.6 Calculation of Bearing Capacity of Chuck of Reinforced Concrete Pole 9.7 Calculation of Bearing Capacity of Stone Chassis, Stay Wire Coil and Chuck 9.8 Calculation of Bearing Capacity of Foundation Bolt 9.9 Calculation of Bearing Capacity of Stay Wire Component 9.10 Calculation of Bearing Capacity of Inclined Section 9.11 Construction Requirements 9.12 Calculation of Bearing Capacity of Pad and Chimney Foundation 10 Rock Anchor Foundation 10.1 Classification and Applicable Conditions of Foundation 10.2 Calculation of Bearing Capacity of Foundation 10.3 Construction Requirements 11 Bored (Punched, Excavated) Cast-in-situ Pile Foundation 11.1 General Requirements 11.2 Construction of Pile Foundation 11.3 Calculation for Effect of Pile Top Action 11.4 Calculation of the Pushing Bearing Capacity of Pile 11.5 Calculation of the Up-pull Bearing Capacity of Pile 11.6 Calculation for the Horizontal Bearing Capacity and Displacement of the Pile 11.7 Calculation of Pile Proper 11.8 Quality Inspection Standard 12 Combined Sink Well Foundation 12.1 Combined Sink Well Foundation 12.2 Data Necessary to Design Combined Sink Well Foundation 12.3 Design Principles 12.4 Construction of Combined Sink Well Foundation 12.5 Design Calculation 12.6 Problem Noted in Engineering Applications and Construction 13 Assembly Foundation 13.1 Classification and Applicable Conditions of Foundation 13.2 Stability Calculation for Lateral Overturning of Hinged Stud Foundation 13.3 Stability Calculation for Lateral Slip of Hinged Stud Foundation 13.4 Calculation of Foundation Bearing Capacity 13.5 Construction Requirements Appendix A (Normative) Foundation Type Appendix B (Normative) Design Principle for Construction Baseplane of Tower Position Appendix C (Normative) Special Foundation Treatment Principle Appendix D (Normative) Strength Calculation for Metal Foundation Bearing Capacity Appendix E (Normative) Characteristic Value of Bearing Capacity and Classification of Foundation Soil (Rock) Appendix F (Normative) Internal Force and Displacement Calculation for Pile under the Action of Horizontal Load Appendix G (Normative) Approximate Calculation of Lateral Bending Moment where Soil Resistance is Considered for Rigid Pillar of Undisturbed Soil Foundation Appendix H (Normative) Coefficient μ of Friction Resistance between Soil and Concrete Foundation Contact Surface and Net Sectional Area of Foundation Bolt Appendix I (Normative) Main Points of Up-pull Static Load Test on Foundation of Transmission Line Appendix J (Normative) Tables for Calculation of Foundation Up-pull, Overturning, Pushing Stability and Foundation Bearing Capacity Appendix K (Normative) Calculation of Local Scour, Running Water Dynamic Pressure and Floater Impact Force on Foundation at Flood
Referred in DL/T 5219-2005:
* GB 50007-2002 Code for Design of Building Foundation
* GB 50010-2010 Code for design of concrete structures
* GB 50021-2001(2009) Code for investigation of geotechnical engineering
* GB 50025-2004 Code for building construction in collapsible loess regions
* GB 50046-2008 Code for Anticorrosion Design of Industrial Constructions
* GB 50191-2012 Design code for antiseismic of special structures
* GB 50204-2015 Code for acceptance of constructional quallty of concrete structures
* GBJ 112-1987 Technical Specifications for Construction Ground In Expanding Soil Areas
* DL/T 5092-1999 Technical code for designing 110~500kV overhead transmission line
* JGJ 94-1994 Technicsl Code for Building Pile Foundations
* JGJ 106-2003 Technical Code for Testing of Building Foundation Piles
* JGJ 118-2011 Code for design of soil and foundation of buildings in frozen soil region
* SL 204-1998 Technical regulation on water and soil conservation plan of development and construction projects
Code of China
Standard
DL/T 5219-2005  Technical regulation for designing foundation of overhead transmission line (English Version)
Standard No.DL/T 5219-2005
Statussuperseded
LanguageEnglish
File FormatPDF
Word Count45000 words
Price(USD)900.0
Implemented on2005-6-1
Deliveryvia email in 1 business day
Detail of DL/T 5219-2005
Standard No.
DL/T 5219-2005
English Name
Technical regulation for designing foundation of overhead transmission line
Chinese Name
架空送电线路基础设计技术规定
Chinese Classification
P62
Professional Classification
DL
ICS Classification
Issued by
NDRC
Issued on
2005-02-14
Implemented on
2005-6-1
Status
superseded
Superseded by
DL/T 5219-2014 Technical regulation for designing foundation of overhead transmission line
DL/T 5219-2014E Technical Code for Design of Foundation of Overhead Transmission Line
Superseded on
2015-3-1
Abolished on
Superseding
SDGJ 62-1984
Language
English
File Format
PDF
Word Count
45000 words
Price(USD)
900.0
Keywords
DL/T 5219-2005, DL 5219-2005, DLT 5219-2005, DL/T5219-2005, DL/T 5219, DL/T5219, DL5219-2005, DL 5219, DL5219, DLT5219-2005, DLT 5219, DLT5219
Introduction of DL/T 5219-2005
1 Scope 1.0.1 This standard specifies the basic principles and relevant design methods for the foundation design of overhead transmission line tower. 1.0.2 This standard is applicable to the foundation design of the newly-built 35kV~500kV overhead transmission line tower. The design of the foundation of other voltage grades and communication towers may refer to this standard. 1.0.3 The foundation of the temporary overhead transmission line tower may be designed by reference to this standard, but the standard may be reduced properly. 1.0.4 The foundation of the renovated and rebuilt overhead transmission line tower may be checked or designed by reference to this standard according to the specific conditions and the existing line operation experience. 2 Normative References
Contents of DL/T 5219-2005
Contents 1 Scope 2 Normative References 3 General Provisions 4 Terms and Symbols 4.1 Terms 4.2 Symbols 5 Basic Requirements 6 Up-pull Stability Calculation 6.1 Applicable Conditions 6.2 Shearing Method 6.3 Soil Weight Method 7 Foundation Pushing and Foundation Calculation 7.1 Foundation Pushing Calculation 7.2 Calculation of Foundation Bearing Capacity 7.3 Foundation Deformation Calculation 8 Overturning Stability Calculation 8.1 Overturning Stability Calculation of Pole Foundation 8.2 Calculation of Overturning Stability of Shallow Foundation of Narrow-foundation Steel Tower 8.3 Calculation of Overturning Stability of Deep Foundation of Narrow-foundation Steel Tower 8.4 Calculation of Overturning Stability of Foundation of Wide-foundation Steel Tower 8.5 Retaining Wall 9 Bearing Capacity Calculation and Construction Requirements of Members 9.1 Calculation of Normal Section Bearing Capacity of Main Column of Reinforced Concrete Foundation 9.2 Calculation of Normal Section Bearing Capacity of Main Column of Concrete Foundation 9.3 Calculation of Normal Section Bearing Capacity of Bottom Slab of Reinforced Concrete Foundation 9.4 Calculation of Normal Section Bearing Capacity of Bottom Slab of Reinforced Concrete Foundation 9.5 Calculation of Bearing Capacity of Reinforced Concrete Stay Wire Coil 9.6 Calculation of Bearing Capacity of Chuck of Reinforced Concrete Pole 9.7 Calculation of Bearing Capacity of Stone Chassis, Stay Wire Coil and Chuck 9.8 Calculation of Bearing Capacity of Foundation Bolt 9.9 Calculation of Bearing Capacity of Stay Wire Component 9.10 Calculation of Bearing Capacity of Inclined Section 9.11 Construction Requirements 9.12 Calculation of Bearing Capacity of Pad and Chimney Foundation 10 Rock Anchor Foundation 10.1 Classification and Applicable Conditions of Foundation 10.2 Calculation of Bearing Capacity of Foundation 10.3 Construction Requirements 11 Bored (Punched, Excavated) Cast-in-situ Pile Foundation 11.1 General Requirements 11.2 Construction of Pile Foundation 11.3 Calculation for Effect of Pile Top Action 11.4 Calculation of the Pushing Bearing Capacity of Pile 11.5 Calculation of the Up-pull Bearing Capacity of Pile 11.6 Calculation for the Horizontal Bearing Capacity and Displacement of the Pile 11.7 Calculation of Pile Proper 11.8 Quality Inspection Standard 12 Combined Sink Well Foundation 12.1 Combined Sink Well Foundation 12.2 Data Necessary to Design Combined Sink Well Foundation 12.3 Design Principles 12.4 Construction of Combined Sink Well Foundation 12.5 Design Calculation 12.6 Problem Noted in Engineering Applications and Construction 13 Assembly Foundation 13.1 Classification and Applicable Conditions of Foundation 13.2 Stability Calculation for Lateral Overturning of Hinged Stud Foundation 13.3 Stability Calculation for Lateral Slip of Hinged Stud Foundation 13.4 Calculation of Foundation Bearing Capacity 13.5 Construction Requirements Appendix A (Normative) Foundation Type Appendix B (Normative) Design Principle for Construction Baseplane of Tower Position Appendix C (Normative) Special Foundation Treatment Principle Appendix D (Normative) Strength Calculation for Metal Foundation Bearing Capacity Appendix E (Normative) Characteristic Value of Bearing Capacity and Classification of Foundation Soil (Rock) Appendix F (Normative) Internal Force and Displacement Calculation for Pile under the Action of Horizontal Load Appendix G (Normative) Approximate Calculation of Lateral Bending Moment where Soil Resistance is Considered for Rigid Pillar of Undisturbed Soil Foundation Appendix H (Normative) Coefficient μ of Friction Resistance between Soil and Concrete Foundation Contact Surface and Net Sectional Area of Foundation Bolt Appendix I (Normative) Main Points of Up-pull Static Load Test on Foundation of Transmission Line Appendix J (Normative) Tables for Calculation of Foundation Up-pull, Overturning, Pushing Stability and Foundation Bearing Capacity Appendix K (Normative) Calculation of Local Scour, Running Water Dynamic Pressure and Floater Impact Force on Foundation at Flood
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Keywords:
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