ANSI UL 814-2011 UL Standard for Safety Gas-Tube-Sign Cable (Twelfth Edition Reprint with Revisions Through and Including October 8 2015)《燃气管标签电缆的安全标准(2010年8月20日草案)》.pdf

1、UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL UL 814 Gas-Tube-Sign CableUL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM ULUL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTI

2、ON OR DISTRIBUTION WITHOUT PERMISSION FROM UL UL Standard for Safety for Gas-Tube-Sign Cable, UL 814 Twelfth Edition, Dated July 6, 2011 SUMMARY OF TOPICS: This revision of ANSI/UL 814 is being issued to reect the reaffirmation of the ANSI approval of the standard. No technical changes have been mad

3、e to the document. The revisions are substantially in accordance with Proposal(s) on this subject dated August 21, 2015. Text that has been changed in any manner or impacted by ULs electronic publishing system is marked with a vertical line in the margin. All rights reserved. No part of this publica

4、tion may be reproduced, stored in a retrieval system, or transmitted in any form by any means, electronic, mechanical photocopying, recording, or otherwise without prior permission of UL. UL provides this Standard as is without warranty of any kind, either expressed or implied, including but not lim

5、ited to, the implied warranties of merchantability or tness for any purpose. In no event will UL be liable for any special, incidental, consequential, indirect or similar damages, including loss of prots, lost savings, loss of data, or any other damages arising out of the use of or the inability to

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8、m. OCTOBER 8, 2015 UL 814 tr1UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL OCTOBER 8, 2015 UL 814 tr2 No Text on This PageUL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL JULY 6, 20

9、11 (Title Page Reprinted: October 8, 2015) 1 UL 814 Gas-Tube-Sign Cable First Edition January, 1936 Second Edition February, 1943 Third Edition October, 1948 Fourth Edition January, 1966 Fifth Edition March, 1969 Sixth Edition October, 1974 Seventh Edition December, 1978 Eighth Edition July, 1982 Ni

10、nth Edition April, 1987 Tenth Edition October, 1995 Eleventh Edition February, 2004 Twelfth Edition July 6, 2011 This ANSI/UL Standard for Safety consists of the Twelfth Edition including revisions through October 8, 2015. The most recent designation of ANSI/UL 814 as a Reaffirmed American National

11、Standard (ANS) occurred on October 8, 2015. ANSI approval for a standard does not include the Cover Page, Transmittal Pages, Title Page, or effective date information. Comments or proposals for revisions on any part of the Standard may be submitted to UL at any time. Proposals should be submitted vi

12、a a Proposal Request in ULs On-Line Collaborative Standards Development System (CSDS) at http:/. ULs Standards for Safety are copyrighted by UL. Neither a printed nor electronic copy of a Standard should be altered in any way. All of ULs Standards and all copyrights, ownerships, and rights regarding

13、 those Standards shall remain the sole and exclusive property of UL. COPYRIGHT 2015 UNDERWRITERS LABORATORIES INC. ANSI/UL 814-2011 (R2015)UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL JULY 6, 2011 GAS-TUBE-SIGN CABLE - UL 814 2 No Text on

14、 This PageUL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL CONTENTS INTRODUCTION 1 Scope .4 2 References 4 3 Units of Measurement .4 4 Materials .4 5 Conductors 4 5.1 Materials, sizes, and ratings 4 5.2 Metal coating 7 5.3 Separator 7 6 Insul

15、ation 7 7 Jacket .8 8 Copper-Wire Braid 8 PERFORMANCE 9 Physical Properties Tests 8 10 Routine Voltage Application Test 9 11 Voltage Application at Elevated Temperature 9 12 Extended Voltage Application Test 10 13 Extended Voltage Application After Immersion Test 11 14 Extended Voltage Application f

16、or GTO Cables Marked Integral Sleeve .11 15 Surface Leakage Test 12 16 Test for Dripping of Compounds .12 17 Flame Test .13 18 Sunlight Resistance 13 19 Cold Bend 13 20 Ozone Exposure Test 14 20.1 General .14 20.2 Specimens 14 20.3 Apparatus .14 20.4 Method .14 21 U-Bend Test .14 21.1 General .14 21

17、.2 Apparatus .15 21.3 Specimen .15 21.4 Procedure .15 21.5 Examination .15 22 Surface Print .15 MANUFACTURING AND PRODUCTION TESTS 23 Spark Test .15 MARKINGS 24 Information on the Cable 16 25 Information on the Tag, Reel, or Carton 17 26 Date of Manufacture .17 JULY 6, 2011 GAS-TUBE-SIGN CABLE - UL

18、814 3UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL INTRODUCTION 1 Scope 1.1 These requirements cover single-conductor, 18 10 AWG, gas-tube-sign cables with temperature ratings of 105C 250C (221F 482F), and ratings of 5000 volts, 10000 volt

19、s, or 15000 volts. The cables are for use with gas-tube systems for signs, outline lighting, and interior lighting in accordance with the National Electrical Code and the Standard for Electrical Signs, UL 48. 1.2 Assemblies that include these cables and are intended for use as components of gas-tube

20、 signs shall meet the requirements in the Standard for Electric-Sign Components, UL 879. 2 References 2.1 Any undated reference to a code or standard appearing in the requirements of this standard shall be interpreted as referring to the latest edition of that code or standard. 2.2 Wherever the desi

21、gnation UL 1581 is used in this standard, reference is to be made to the designated parts of the Reference Standard for Electrical Wires, Cables, and Flexible Cords, UL 1581. Whenever the designation UL 2556 is used in this standard, reference it to be made to the designated parts of the Standard fo

22、r Wire and Cable Test Methods, UL 2556. 3 Units of Measurement 3.1 In addition to being stated in the inch/pound units that are customary in the USA, each of the requirements in this standard is also stated in units that make the requirement conveniently usable in countries employing the various met

23、ric systems (practical SI and customary). Equivalent although not necessary exactly identical results are to be expected from applying a requirement in USA or in metric terms. Equipment calibrated in metric units is to be used when a requirement is applied in metric terms. 4 Materials 4.1 Each mater

24、ial used in a cable shall be compatible with all of the other materials used in the cable. 5 Conductors 5.1 Materials, sizes, and ratings 5.1.1 The conductor shall be of soft-annealed copper. The conductor shall be 18 10 AWG in size. The conductor shall not be smaller in area than indicated in Table

25、 5.1 and shall be continuous throughout without joints in the conductor as a whole. The voltage rating of the cable shall not exceed the rating shown in Table 5.1 based on conductor size. Effective date for 5.1.1 changed from January 6, 2012 to October 1, 2012 5.1.2 The size of a conductor shall be

26、veried either by determination of the d-c resistance or by determination of the cross-sectional area as described in 5.1.4. Measurement of the d-c resistance is to be as described in the test, D-C Resistance, in UL 2556. Determination of the conductor size by measurement of the direct-current resist

27、ance is the referee method in all cases. The d-c resistance shall not be higher than the maximum indicated for the size in Table 5.3 or 5.4, as applicable. MARCH 1, 2012 GAS-TUBE-SIGN CABLE - UL 814 4UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION F

28、ROM UL 5.1.3 The resistance of a copper conductor measured at a temperature other than 20 or 25C is to be adjusted to the resistance at 20 or 25C by means of the applicable multiplying factor found in the table titled Adjustment factors for dc resistance of conductors , in UL 2556. 5.1.4 Where measu

29、red as the means of size verication (see 5.1.2), the cross-sectional area of the conductor shall not be smaller than the minimum area indicated for the size in Table 5.1. The cross-sectional area of the conductor is to be determined as the sum of the areas of its component round strands, with the in

30、dividual strands measured as described in 5.1.5. Where the sum of the strand areas does not comply, the conductor area is to be determined by the weight method described in the test, Cross-Sectional Area by mass (weight) method, in UL 2556. The area determined by the weight method is to be taken as

31、conclusive. Table 5.1 Minimum cross-sectional area and maximum voltage rating of conductor Effective date for Table 5.1 changed from January 6, 2012 to October 1, 2012 AWG size of copper conductor cmil (0.98 x nominal area) mm 2 Maximum voltage rating 18 1,588 0.807 5000 10000 V 17 2,009 1.02 16 2,5

32、28 1.28 15 3,195 1.62 14 4,028 2.04 10001 15000 V 13 5,076 2.58 12 6,399 3.24 11 8,065 4.04 10 10,172 5.16 5.1.5 The diameter of each individual strand is to be measured over the tin or other metal coating by means of a micrometer caliper having at surfaces on both the anvil and the end of the spind

33、le and calibrated to read directly to at least 0.001 inch or 0.01 mm. It is to be assumed that any one strand is practically constant in diameter throughout its length. 5.1.6 No particular combination of the individual strands of a conductor is required; however, simple bunching (untwisted strands)

34、shall not be used. 5.1.7 The individual wires strands used in making up a conductor are usually drawn to a specied diameter that does or does not correspond to the diameter of an established gauge number. The individual strands are not required to be all of the same diameter. 5.1.8 The length of lay

35、 of the strands in every layer of a concentric-lay-stranded conductor shall be 8 16 times the outside diameter of that layer. The direction of lay of the outer layer shall be left-hand. 5.1.9 The length of lay of the strands in a single-bunch bunch-stranded conductor shall not be greater than indica

36、ted in Table 5.2. The direction of lay shall be left-hand. MARCH 1, 2012 GAS-TUBE-SIGN CABLE - UL 814 5UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL Table 5.2 Maximum length of lay of strands in a single-bunch bunch-stranded conductor AWG

37、size of conductor Inches mm 18, 17 11/4 32 16, 15 11/2 38 14, 13 13/4 44 12, 11 2 51 10 21/2 64 Table 5.3 Maximum direct-current resistance of copper conductors ASTM Class C 19strand concentric-lay conductors assumed AWG size of conductor Uncoated Coated 20C (68F) 25C (77F) 20C (68F) 25C (77F) Ohms

38、per 1000 feet Ohms per kilo-meter Ohms per 1000 feet Ohms per kilo-meter Ohms per 1000 feet Ohms per kilo-meter Ohms per 1000 feet Ohms per kilo-meter 18 6.66 21.8 6.79 22.2 7.06 23.2 7.19 23.6 17 5.27 17.3 5.37 17.6 5.59 18.3 5.70 18.7 16 4.18 13.7 4.26 14.0 4.45 14.6 4.53 14.9 15 3.31 10.9 3.37 11

39、.1 3.44 11.3 3.51 11.5 14 2.62 8.62 2.68 8.78 2.73 8.96 2.78 9.14 13 2.08 6.82 2.12 6.97 2.21 7.10 2.20 7.24 12 1.65 5.43 1.68 5.53 1.72 5.64 1.75 5.75 11 1.32 4.30 1.34 4.39 1.37 4.48 1.39 4.56 10 1.039 3.409 1.060 3.476 1.080 3.546 1.102 3.615 Table 5.4 Maximum direct-current resistance of single-

40、bunch bunch-stranded copper conductors AWG size of conductor Uncoated Coated 20C (68F) 25C (77F) 20C (68F) 25C (77F) Ohms per 1000 feet Ohms per kilometer Ohms per 1000 feet Ohms per kilometer Ohms per 1000 feet Ohms per kilometer Ohms per 1000 feet Ohms per kilometer 18 6.72 22.1 6.85 22.5 7.23 23.

41、7 7.36 24.6 17 5.29 17.4 5.40 17.7 5.47 17.9 5.57 18.3 16 4.18 13.7 4.26 14.0 4.54 14.9 4.58 15.0 15 3.30 10.8 3.37 11.1 3.44 11.3 3.50 11.5 14 2.63 8.64 2.67 8.76 2.82 9.25 2.89 9.48 13 2.08 6.82 2.12 6.96 2.16 7.09 2.20 7.22 12 1.65 5.42 1.69 5.55 1.78 5.84 1.81 5.94 11 1.32 4.33 1.35 4.43 1.37 4.

42、49 1.40 4.59 10 1.040 3.420 1.063 3.380 1.120 3.680 1.140 3.740 JULY 6, 2011 GAS-TUBE-SIGN CABLE - UL 814 6UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL 5.2 Metal coating 5.2.1 The individual strands of a copper conductor shall each have a

43、 continuous coating of tin or other metal or alloy if the conductor is insulated with a material that is capable of corroding unprotected copper. 5.3 Separator 5.3.1 A separator between the conductor and the insulation is not required but, if provided, shall consist of a close wind or braid of mater

44、ial such as ne cotton, or a close wind or wrap of a material such as paper or cellophane. A separator shall be colored or opaque to make the separator clearly distinguishable from the conductor once the insulation is removed. The color shall be other than green or green and yellow and may be solid,

45、striped, or in some other pattern. 6 Insulation 6.1 The conductor shall be insulated or integrally insulated and jacketed for its entire length with one or more of the insulation or insulation/jacket materials for which physical-properties limits are tabulated in Specic Materials, Section 50, of UL

46、1581 or with another such material evaluated for the use. The insulation or integral insulation/jacket that is the outermost layer on GTO Cable marked integral sleeve shall be of a material that has a minimum, unaged tensile strength of 1200 lbf/in 2 or 8.27 MPa (MN/m 2 ), or 827 N/cm 2 , or 0.844 k

47、gf/mm 2 . The insulation or integral insulation/jacket material shall have a temperature rating of 105C (221F), 150C (302F), 200C (392F), or 250C (482F), shall be applied directly to the surface of the conductor or to the separator, if one is used, and shall comply with the requirements in Sections9

48、2 1 . 6.2 The applied insulation or integral insulation and jacket shall provide a circular cross section for the insulated or insulated/jacketed conductor, and the conductor itself shall be centered in the applied material so that, when determined by the pin-gauge or optical method, the minimum thi

49、ckness at any point of the applied material is not less than 90 percent of the average thickness of the material as determined by the difference method. The average thickness of the insulation or integral insulation/jacket is not specied. 6.3 An insulation or jacket that is of material generically different from any insulation or jacket material referenced in 7.2 (new material), or that is as referenced in 6.1 or 7.2 yet does not comply with th