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GB 4623-2014: [GB/T 4623-2014] Circular concrete pole
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Basic data | Standard ID | GB 4623-2014 (GB4623-2014) | | Description (Translated English) | [GB/T 4623-2014] Circular concrete pole | | Sector / Industry | National Standard | | Classification of Chinese Standard | Q14 | | Classification of International Standard | 91.100.30 | | Word Count Estimation | 30,383 | | Date of Issue | 12/5/2014 | | Date of Implementation | 12/1/2015 | | Older Standard (superseded by this standard) | GB/T 4623-2006 | | Quoted Standard | GB 175; GB/T 700; GB 748; GB 1499.1; GB 1499.2; GB/T 5223; GB/T 5224; GB 8076; GB/T 14684; GB 50010; GB/T 50081; GB/T 10107; GB 50164; GB 50204; GB 50205; JC/T 540; JGJ 18; JGJ 63; GB/T 14685 | | Regulation (derived from) | Announcement of Newly Approved National Standards 2014 No. 27 | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | | Summary | This Standard specifies the terms and definitions annular concrete pole, classification, raw materials and construction, technical requirements, test methods, inspection rules, marking, storage and transportation, product certification and other content. | GB 4623-2014: [GB/T 4623-2014] Circular concrete pole---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Circular concrete pole
ICS 91.100.30
Q14
National Standards of People's Republic of China
Replacing GB/T 4623-2006
Annular concrete pole
Issued on. 2014-12-05
2015-12-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Table of Contents
Preface Ⅰ
1 Scope 1
2 Normative references 1
3 Terms and definitions
4 Category 2
Raw materials and construction 5 9
6 Technical Requirements 11
7 Test Method 14
15 8 Inspection Rules
9 mark 17
10 Storage and transport 18
18 11 Product certification
Appendix A (informative) taper rod main rod section schematic 20 series
Appendix B (normative) Mechanical tests 21 poles
Foreword
The standard 6.4, Article 6.5.1, Article 6.5.2, Article 6.5.3, Article 6.5.5 are mandatory, the rest are recommended.
This standard was drafted in accordance with GB/T 1.1-2009 given rules.
This standard replaces GB/T 4623-2006 "endless concrete poles."
This standard and GB/T 4623-2006 The main differences are as follows.
--- By the recommended standards to mandatory standards;
--- Adjust some normative references (see Chapter 2, Section 2 of the 2006 edition);
--- Modify the specifications pole series (see Table 1, Table 2, Table 3, Table 4, Table 5, Table 6, 2006 edition of the Table 1, Table 2, Table 3, Table 4,
table 5);
--- Modify some of the raw materials and construction requirements (see Chapter 5, 2006 edition of Chapter 5);
--- Increase concrete quality control requirements (see 6.1.3);
--- Increased when pole factory, concrete compressive strength requirements (see 6.1.4);
--- Modify the steel ring (or flange) in conjunction with the shaft surface and the plasma leakage to a predetermined longitudinal length of the ring (see table 7, 2006 edition
Table 6);
--- Increase in cracking test moment, the rod is longer than 15m or less 18m taper rod deflection requirements (see 6.5);
--- Increased taper rod rod segment series main schematic (see Appendix A).
The standard proposed by China Building Materials Federation.
This standard by the National Standardization Technical Committee cement products (SAC/TC197) centralized.
This standard is drafted by. Suzhou Institute of concrete products Cement Co., Ltd. Xuzhou three yuan tower.
Participated in the drafting of this Standard. China Electric Power Research Institute, China Academy of Railway Sciences, the National Concrete Products Quality Supervision,
Inspection Center, Shandong Electric Power Engineering Company pipeline, Yichang Changyao Cement Products Co., Ltd., Hunan Electric Power Line Equipment Factory, Weifang Wei Ling
Cement works, Zhejiang Yongda Electric Power Industrial Co., Ltd. Feicheng Lu Tai, Wuxi China Resources Co., Shandong can lever
Tower Co., Ltd., North Seiichi Concrete Products Co., Ltd., Shanghai Electric Power Line Equipment Co., Ltd., Jiangsu Jinqiao Building Materials Co.,
Beipiao Power poles Manufacturing Co., Ltd. Hubei SOUTH pipeline, China Energy Construction Group Shaanxi Galaxy power lines Equipment Co.
Secretary, cement Tangshan Co., Ltd., Zhejiang Feijian Power Equipment Co., Ltd. Henan full tower, Guizhou Long energized
Power lines Equipment Co., Ltd., Jiangxi Huadian Power Equipment Co., Ltd., Jilin Electric Power Pipeline Engineering Corporation, Jiangsu Building Materials Group Co., Dai Park
The company, Changzhou Teng far poles Co., Ltd. Changzhou City, the United States and China poles, towers silver sea Hefei Ltd., Fuyang City Zhicheng cement products
Ltd., Chongqing City, Sichuan able Cement Co., Ltd., Long Qing Fogang Power Equipment Co., Ltd. Gaoyou Fergus poles, Linyi
Winton poles, Ltd., Chongqing Peng Sheng Cement Co., Ltd., Hengshui Yongfeng Cement Products Co., Ltd., Suzhou City Star
Fire cement electric pole, Universal Power poles Tangyin limited liability company, Dangtu County Li Heng Metal Products Joint-Stock Company, Dalian Hongrui electricity
Equipment Manufacturing Co., Ltd., Taizhou, the constant building materials machinery limited liability company.
Drafters of this standard. Shen Lihua, a single-Granville, Jeffrey Li, Wei Qiwei, Tian Hua, the official Qingxiang, Wu Chi ball, Li Changchun, star, Zhang Haiqing,
Chen Weiguo, Guozhi Tao, Tong Yong, Zhang Gangjiang, Zhumao Hui, Chen Jianguang, Li Huaizhong, new Huai, Gao Ying, Wang Chunrong.
The standard standard replaces the previous editions.
--- GB 396-1984, GB 396-1994;
--- GB 4623-1984, GB 4623-1994, GB/T 4623-2006.
Annular concrete pole
1 Scope
This standard specifies the terms and definitions annular concrete pole, classification, raw materials and construction, technical requirements, test methods, inspection rules,
Labeling, storage and transportation, product certification and so on.
This standard applies to other components (not including pole power poles, communication poles, lighting pillars, columns and other signal, such as cross arm, card
Plate, chassis and other accessories).
2 Normative references
The following documents for the application of this document is essential. For dated references, only the dated version suitable for use herein
Member. For undated references, the latest edition (including any amendments) applies to this document.
GB 175 Common Portland Cement
GB/T 700 carbon structural steel
GB 748 sulfate resisting portland cement
GB 1499.1 steel reinforced concrete - Part 1. Hot rolled steel
GB 1499.2 steel reinforced concrete - Part 2. Hot rolled ribbed bars
GB/T 5223 prestressed concrete steel wire
GB/T 5224 prestressed concrete strand
GB 8076 concrete admixture
GB/T 14684 construction sand
GB/T 14685 construction with gravel, crushed stone
GB 50010 Design of Concrete Structures
GB/T 50081 mechanical properties of ordinary concrete test method standards
GB/T 50107 Concrete Strength Inspection and Evaluation Standards
GB 50164 concrete quality control standards
GB 50204 Construction Quality Acceptance of Concrete Structure Engineering
Steel Engineering Construction Quality Acceptance GB 50205
JC/T 540 concrete products cold drawn low carbon steel wire
JGJ18 and acceptance of welded steel
JGJ63 concrete water standards
3 Terms and Definitions
The following terms and definitions apply to this document.
3.1
Reinforced concrete pole reinforcedconcretepole
Longitudinal reinforcement in reinforced concrete poles of.
3.2
Prestressed concrete pole prestressedconcretepole
Longitudinal reinforcement prestressed reinforced concrete pole, cracking test coefficient allowable value [γcr] = 1.0.
3.3
Partially prestressed concrete pole partialyprestressedconcretepole
Longitudinal reinforcement by the prestressing steel and ordinary steel or a combination of all of prestressed reinforced concrete pole, cracking test system
The number of allowed values [γcr] = 0.8.
3.4
Crack crack
Pole outer surface extending into the interior of concrete cracks.
3.5
Leakage of plasma leakage
The outer surface of the pole due to the loss of grout exposed aggregate.
3.6
Exposed tendons exposedsteel
Pole inside the reinforced concrete encased and is not exposed. It does not include longitudinal prestressing steel head pole ends.
3.7
Slump slump
Pole concrete wall to block off.
3.8
Cellular honeycomb
The outer surface of the pole due to leakage of plasma or missing mortar and other factors caused a honeycomb hole.
3.9
Pock pittedsurface
The outer surface of the pole rendered dense micropores.
3.10
Sticky skin peeling
Pole outer surface of the slurry layer after being glued to the mold leaving a rough surface.
3.11
Moire plasticcrack
Pole outer faces exhibited no obvious neat edge and depth of Turtle-shaped lines.
3.12
Watermark watergraining
Showing a fine, after the evaporation of water lines disappear when pole outer surface moist.
Category 4
4.1 product according to shape into a tapered rod (codenamed Z) and equal-diameter rod (codenamed D) are two, shown in Figure 1; product in different ways into steel reinforcement
Reinforced concrete pole (code G), prestressed concrete pole (code-named Y) and partially prestressed concrete pole (codenamed BY) three.
Tapered rod and the rod diameter and so are the whole assembly of rods and bars. The main mast section tapered rod series Refer to Appendix A.
a) Normal taper rod
b) Flanged tapered rod
c) equal diameter rod
Explanation.
L --- lever length; D --- root diameter (or diameter);
L1 --- load point height; d --- tip diameter;
L2 --- support point height; δ --- wall thickness.
L3 --- tip to load point distance;
1 taper rod and the rod diameter, etc. schematic
4.2 pole tip diameter (or diameter), length, load cracking test cracking test moment, Bearing Test moment (moment of cracking Bearing Test
2 times the test moments) shown in Table 1, Table 2, Table 3, Table 4, Table 5 and Table 6. ≥12m poles rod length can be segmented production. By supply and demand double
Party Agreement, also produce other specifications and cracking test moments pole.
4.3 Products by shape code, pole tip diameter (or diameter), long pole, cracking test moments (or load cracking test code), code and standard varieties
Registration number sequence tags.
Note 1. The tip diameter (or diameter) units of mm; stem length unit m; cracking unit test load kN; Cracking moment test units kN · m.
Note 2. The cracking test taper rod support means Moment cracking test section at the moment point.
Example 1. tip diameter of 190mm, rod length 12m, cracking testing moment for the 39kN · m reinforced concrete tapered rod, which are labeled as follows.
Z φ190 × 12 × 39 × G GB 4623
Example 2. tip diameter of 190mm, rod length 12m, cracking test load of K-class partially prestressed concrete cone rod, which are labeled as follows.
Z φ190 × 12 × K × BY GB 4623
Example 3. diameter of 300mm, rod length is 6m, cracking testing moment for the prestressed concrete 45kN · m-diameter rod or the like, which are labeled as follows.
D φ300 × 6 × 45 × Y GB 4623
Table 6 equal diameter rod cracking test a Moment
Diameter/mm
Length. 3.0m, 4.5m, 6.0m, 9.0m, 12.0m, 15.0m
Cracking moment test/(kN · m)
3,002,025,303,540,455,060
350 30 40 5,060,708,090,100,120
400 40 45 5,060,708,090,100,120,140
500,707,580,859,095 100 105
550 90115135155180
Supported by a simple test, the test cracking moment (Mk) that is the maximum bending moment at the section between the two loading points at cracking test loads.
5 raw materials and construction
5.1 raw materials
5.1.1 Cement
We should adopt the intensity level of not less than 42.5 Portland cement, ordinary portland cement, slag Portland cement, sulfate-resisting portland
Cement, its performance shall conform to GB 175, GB 748 provisions.
5.1.2 Aggregate
Fine aggregate should be used in coarse sand, fineness modulus of 3.2 to 2.3. Coarse aggregate should be used gravel or crushed gravel with a maximum grain size should not be large
At 25mm, and rebar spacing should be less than 3/4. Sand, other quality stone shall conform to the provisions of GB/T 14684, GB/T 14685 of.
5.1.3 Water
Concrete mixing water should comply with the provisions of JGJ63.
5.1.4 admixtures
Quality admixtures shall comply with the provisions of GB 8076, should not use chlorine or other additives salts have a corrosive effect on the steel outer
Additives.
5.1.5 Admixture
Admixtures should not adversely affect the pole, shall be tested prior to use to verify and comply with relevant standards.
5.1.6 Steel
5.1.6.1 ordinary longitudinal reinforcement
Rolled ribbed steel bars should be used, its performance should be consistent with the provisions of GB 1499.2.
5.1.6.2 prestressed longitudinal reinforcement
Should adopt low relaxation of prestressed concrete steel wire strand, and its performance shall conform to GB/T 5223 regulations, GB/T 5224's.
5.1.6.3 erect ring ribs
Should adopt Hot rolled steel, cold drawn low carbon steel wire, and its performance shall conform to the provisions of GB 1499.1, JC/T 540's.
5.1.6.4 spiral bar
Should be used cold drawn low carbon steel wire, its performance should be consistent with the provisions of JC/T 540's.
5.1.6.5 steel ring and flange
Steel flange ring and the steel sheet should be used Q235B steel, its performance should be consistent with GB/T 700 provisions. If there are special circumstances,
The test can be used to verify other materials, and shall comply with the relevant standards.
5.2 configuration
5.2.1 steel skeleton
5.2.1.1 The amount of longitudinal reinforcement is determined by design calculations. Longitudinal reinforcement should be no less poles along the circumferential uniform configuration, the tapered rod
At 6, equal diameter rod not less than 8. When longitudinal reinforcement partially prestressed concrete pole, the configuration For ordinary steel, its roots
Number of not less than 6, and should be uniform configuration. Longitudinal reinforcement diameter should not exceed 2/5 of the wall thickness. Face should be smooth, there should be no partial bend
Song, there should be no surface oil.
After prestressing steel 5.2.1.2 tone down the material, cutting its length relative error should not exceed 1.5 bar length/10000.
5.2.1.3 Heading strength prestressing steel should not be less than 98% of the material standard strength.
5.2.1.4 prestressing steel should not be broken ribs. The degree of tension prestressed reinforcement and stress control methods should be consistent with GB 50010, GB 50204
Provisions.
5.2.1.5 prestressing steel should not have joints; ordinary steel joints allow its joint technical requirements should be consistent JGJ18, GB 50204's
Provisions.
5.2.1.6 longitudinal reinforcement spacing should not be less than 30mm, the smallest cone rod head should not be less than 25mm. When the reinforcement is too dense, recoverable
Take and tendons furnished and tendons shall comply with the technical requirements of GB 50010.
5.2.1.7 pole over its full length, should be set spiral ribs, spiral bar diameter should adopt 2.5mm ~ 6mm. When the tapered rod
Tip diameter greater than or equal to 190mm, less than 230mm, spiral bar diameter of not less than 3mm; or the like when the straight tip diameter of the tapered rod diameter rod
When the diameter is greater than or equal to 230mm, spiral bar diameter not less than 4mm. Spiral reinforcement spacing in each of the two ends of not more than 1.5m away
70mm, the rest should not exceed 120mm. Both ends of the spiral reinforcement rod segments should close all wrapped around three laps to 5 laps.
5.2.1.8 In addition to the use of seam welding skeleton, the medial longitudinal force reinforcement should be provided erect ring and hanger bar diameter circle should adopt 5mm ~ 10mm.
When the longitudinal reinforcement diameter greater than 18mm, erect steel circle diameter of not less than 8mm. Erect reinforced concrete ring spacing for electricity
Bar not more than 500mm; for prestressed partially prestressed concrete pole should not be greater than 1000mm. When seam welding may skeleton
It does not erect circle.
5.2.1.9 After forming the skeleton, the size of each part should meet the following requirements.
a) longitudinal reinforcement spacing deviation shall not exceed ± 5mm;
b) spiral reinforcement spacing deviation shall not exceed ± 10mm;
c) erect circle pitch deviation should not exceed ± 20mm, vertical deviation should not exceed 1/40 erect circle diameter.
5.2.2 pole connector and holes for embedded parts
5.2.2.1 pole connector can be used steel rings, flanges, or other form of joint. Steel ring, flange design drawings shall manufacture, its quality should be consistent with the provisions of GB 50205. Flanges should be hot dip galvanized or zinc thermal spraying anti-corrosion treatment.
Connection 5.2.2.2 longitudinal reinforcement and connections. the prestressing steel should adopt the method of heading connector, upsetting the first bearing surface should be in the same plane; ordinary steel should be used welding, weld quality should be consistent with the provisions of JGJ18.
5.2.2.3 pole sections joint strength should not be below the carrying capacity of the joint.
5.2.2.4 embedded parts, holes for design drawings and scuppers should be set up and clean up.
5.2.2.5 ground nuts, spikes female, junction boxes and other exposed metal part should be clearly labeled.
5.2.3 longitudinal reinforcement end
One or both ends before or after stripping the factory, without steel ring pole (or flange) has been exposed longitudinal reinforcement should be removed first, and take effective measures to deal with corrosion. Steel ring, flange coupling end top longitudinal reinforcement force should also take effective measures to deal with corrosion.
5.2.4 Pole top
Products manufactured before the tapered rod tip or equal diameter rod end seal concrete or mortar real application. For special requirements, be dealt with separately.
5.2.5 Other
There are special requirements for durability poles, respond to its raw materials, concrete mix, production process parameters to strengthen control, according to the design requirements to take appropriate measures on the concrete protective layer.
6 Technical Requirements
6.1 compressive strength of concrete
6.1.1 reinforced concrete pole with concrete strength not less than C40; prestressed concrete poles, with partially prestressed concrete pole
Concrete strength not less than C50.
6.1.2 Reinforced concrete compressive strength of concrete pole release when not less than 60% of the design value of the concrete strength; prestressed mix
Concrete poles, concrete strength values partially prestressed concrete compressive strength of concrete pole release when not less than the design
70%.
6.1.3 quality control of concrete shall comply with the provisions of GB 50164.
6.1.4 pole factory, concrete compressive strength of concrete strength should not be below the value of design.
6.2 appearance quality
Appearance quality pole should be in accordance with Table 7.
Table 7 Appearance quality requirements
No. Project category quality requirements
1 a A surface cracks
Prestressed concrete pole and partially prestressed concrete pole should not have to ring and longitudinal cracks. Reinforced concrete poles should not have longitudinal cracks, circumferential crack width should not exceed 0.05mm
2 plasma leakage
Mold edge commissure
Steel ring (or flange) in conjunction with the shaft surface
Commissure should die edge plasma leakage. But as plasma leakage depth of not more than 10mm, the length of each of the plasma leakage is not more than 300mm, a total length of not more than 10% of the rod length, symmetrical plasma leakage lap length of not more than 100mm, allows repair
Steel ring (or flange) in conjunction with the shaft surface should not be leaking slurry. But as plasma leakage depth of not more than 10mm, the cumulative length of the ring is not more than 1/4 of the circumference of the longitudinal length of not more than 15mm, allows repair
Table 7 (continued)
No. Project category quality requirements
3 Local bumps B
Local shall bruise. However, if the depth is not more than bumps 10mm, at every area of not more than
50cm2, the allowed repair
4, the outer rib A cheeky allowed
A concrete slump 5 inner surface allowed
6 A honeycomb allowed
7 Ma face, sticky skin B
There should Pock or sticky skin. But as per meter length of hemp or sticky skin surface is not greater than the total area
5% of the external surface area of the same length, allowing repair
Steel ring groove joints to
Concrete from the end face
Steel ring groove to the end surface of the concrete should be greater than the distance of 1.5 times the thickness of the steel sheet without small
To 20mm
Excluding the fracture surface of a moire and waterlines.
6.3 Size Tolerances
Pole dimensions shall comply with the requirements of this standard or according to design drawings and manufacturing. Size tolerances shall comply with the requirements in Table 8.
Table 8 Dimensions in millimeters tolerance
No. Project category quality requirements
A long
Whole rod
Club assembly segment
-40
± 10
2 wall thickness B 10-2
The outer diameter B 4-2 3
The thickness of the protective layer 4 a A 8-2
5 segment curvature
Pole tip diameter less than or equal to 190
Pole tip diameter or diameter greater than 190
≤L/800
≤L/1000
6 end tilt
Sole
Steel ring
Flanges
≤5
≤3
≤2
twenty one
Table 8 (continued) millimeters
No. Project category quality requirements
7 embedded parts
Reserved hole
Steel ring
Flanges
Longitudinal distance between two holes
Lateral
Stationary
Buried formula
diameter
thickness
An outer diameter
Pole outer diameter ≤400
Pole outside diameter > 400
Inner and outer diameter
Screw center distance
Plate thickness
8 steel ring or flange axis of the rod segment axis ≤2
a protective layer thickness deviation of the difference between the number of manufacturing and design, but the minimum thickness of the protective layer shall comply with the provisions of 6.4.
6.4 thickness of the protective layer
The net thickness of concrete cover longitudinal reinforcement force of not less than 15mm. Protective layer thickness tolerances are shown in Table 8.
6.5 Mechanical Properties
6.5.1 Reinforced concrete pole loading to Table 1, Table 2, when a predetermined test cracking moment. the crack width should not exceed 0.20mm; when the cone club length is less than 10m, mast deflection should not exceed (L1 L3)/35; lever length equal to or greater than 10m, less than or equal to 12m, mast deflection should not exceed (L1 L3)/32; pole longer than 12m, less than or equal to 18m, mast deflection should not exceed (L1 L3)/25. After loading to the unloading moment cracking test, residual crack width should not exceed 0.05mm.
6.5.2 prestressed concrete pole loading specified in Table 3 to verify cracking moment. not cracks; cone club length is less than or equal to 12m, mast deflection should not exceed (L1 L3)/70; rod grew up in the 12m, 18m or less, the mast deflection should not exceed (L1 L3)/50.
6.5.3 partially prestressed concrete pole loading to Table 4, 80% Table 5 provides cracking test moment should not be cracks. To loading
When cracking test moment. the crack width should not exceed 0.10mm; when the cone club length less than or equal 12m, mast deflection should not exceed (L1
L3)/50; pole longer than 12m, less than or equal to 18m, mast deflection should not exceed (L1 L3)/35.
6.5.4 equal diameter rod, rod length is greater than 18m tapered rod deflection and crack width and to the special requirements of poles, crack deflection and crack width test moment when their agreement by both parties.
6.5.5 Bearing Test loading to the moment (2x Tables 1 to 6 of cracking test moments), the case should not be any of the following occur.
a) by the crack width of concrete tensile zone or tensile reinforcement reached 1.5mm pulled off;
b) the destruction of concrete compression zone;
c) Deflection. Press cantilever test taper rod, mast deflection greater than (L1 L3)/10; Simple - supported by test equal diameter rod. diameter less than 400mm, the deflection is greater than L0/50; diameter equal to or greater than 400mm, deflection greater than L0/70.
7 Test methods
7.1 compressive strength of concrete
7.1.1 concrete mixture should be stirred or feed station random sampling process to produce cubic specimens, 3 specimens as a group.
7.1.2 day mixing with the concrete mix, sampling should not be less than once every molded at least three groups. Two sets of specimens with the same curing condition pole, another set of standard curing specimens.
7.1.3 two poles and the same curing condition specimens were used to test the strength and release factory strength; by a standard curing specimens for inspection and assessment of the compressive strength of concrete 28d.
7.1.4 Test Method for Compressive Strength of Concrete should be consistent with GB/T 50081 requirements.
7.2 appearance of quality, size
Appearance quality, test tools and test methods in Table 9 size.
7.3 thickness of the protective layer
Concrete protective layer thickness test tools and test methods are shown in Table 9.
Table 9 appearance quality, size, thickness of the protective layer test tools and test methods
No. Test items Test Method
Measuring scale value
1 crack width measurement with ≥20 times reading a magnifying glass, accurate to 0.01mm 0.01
2 plasma leakage stitch length steel tape measure, accurate to 1mm 1
3 plasma leakage seam depth with a vernier caliper measurements, accurate to 1mm 0.10
4 bumps length steel or steel tape measure ruler measure...
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