ANSI ISA 61241-1-2006 Electrical Apparatus for Use in Zone 21 and Zone 22 Hazardous (Classified) Locations Protection by Enclosures tD (12.10.03).pdf

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1、 AMERICAN NATIONAL STANDARD ANSI/ISA-61241-1 (12.10.03)-2006 (R2015) Electrical Apparatus for Use in Zone 21 and Zone 22 Hazardous (Classified) Locations Protection by Enclosures “tD” Approved 29 September 2015 ANSI/ISA-61241-1 (12.10.03)-2006 (R2015), Electrical Apparatus for Use in Zone 20, Zone 2

2、1 and Zone 22 Hazardous (Classified) Locations Protection by Enclosures “tD” ISBN: 978-1-941546-38-3 Copyright 2015 by IEC and ISA. All rights reserved. Not for resale. Printed in the United States of America. No part of this publication may be reproduced, stored in a retrieval system, or transmitte

3、d in any form or by any means (electronic mechanical, photocopying, recording, or otherwise), without the prior written permission of the Publisher. ISA 67 Alexander Drive P.O. Box 12277 Research Triangle Park, North Carolina 27709 - 3 - ANSI/ISA-61241-1 (12.10.03)-2006 (R2015) Preface This preface,

4、 as well as all footnotes and annexes, is included for information purposes and is not part of ANSI/ISA-61241-1 (12.10.03)-2006 (R2015). This document has been prepared as part of the service of ISA toward a goal of uniformity in the field of instrumentation. To be of real value, this document shoul

5、d not be static but should be subject to periodic review. Toward this end, the Society welcomes all comments and criticisms and asks that they be addressed to the Secretary, Standards and Practices Board; ISA; 67 Alexander Drive; P. O. Box 12277; Research Triangle Park, NC 27709; Telephone (919) 549

6、-8411; Fax (919) 549-8288; E-mail: standardsisa.org. The ISA Standards and Practices Department is aware of the growing need for attention to the metric system of units in general, and the International System of Units (SI) in particular, in the preparation of instrumentation standards. The Departme

7、nt is further aware of the benefits to USA users of ISA standards of incorporating suitable references to the SI (and the metric system) in their business and professional dealings with other countries. Toward this end, this Department will endeavor to introduce SI-acceptable metric units in all new

8、 and revised standards, recommended practices, and technical reports to the greatest extent possible. Standard for Use of the International System of Units (SI): The Modern Metric System, published by the American Society for Testing zone 21; 1 To be published. - 15 - ANSI/ISA-61241-1 (12.10.03)-200

9、6 (R2015) zone 22 with conductive dust. Dust-protected enclosures, IP5X, shall be applied for use in: zone 22 with non-conductive dust. At present, there are no additional requirements for practice A to those given in IEC 61241-0 and in this standard. 6.2 Joints 6.2.1 General All joints in the struc

10、ture of the enclosure between surfaces, whether permanently closed or designed to be opened from time to time, shall fit closely together within the tolerances specified in the documentation. They shall be effectively sealed against the ingress of dust and shall comply with the following particular

11、requirements: The length of thread for all screw joints employing parallel threads shall be not less than five threads. Hinges shall be clear of joints and shall not be used as a means of obtaining a seal unless they are provided with facilities for positive location and correct operation is assured

12、; and it is not possible for damage to occur to either the hinge or enclosure during normal operation and use; and they are not manufactured from materials that are subject to wear that would affect the correct operation; and correct compression of the gasket is achieved without causing undue moveme

13、nt, stress or distortion to the gasket. Where necessary a suitable register shall be provided for covers and the like to ensure correct replacement. 6.2.2 Gaskets and seals Gaskets under compression between joint surfaces may be used to ensure the effectiveness of the enclosure sealing. All gaskets

14、shall be of one-piece continuous construction, i.e. with an uninterrupted periphery. Gaskets, whether of the loose or secured variety, shall be of a form that will provide and maintain in service a dust-excluding seal between the joint surfaces of the enclosure. NOTE Unless all gaskets are either ce

15、mented or moulded into one face of the jointed surface, the design of the enclosure should be such that the inspection of the assembly to determine whether gas kets have been fitted correctly can be made without disturbing the enclosure. A gasket may be cemented to one face only of the joint surface

16、. Gasketed joints shall not be supplemented by the application of a sealant material except on one face only of the joint surfaces. Gaskets shall be of material that is not subject to appreciable ageing or to plastic flow betwee n the envisaged maintenance periods as determined by the tests in 8.1 t

17、hrough 8.2.3. ANSI/ISA-61241-1 (12.10.03)-2006 (R2015)- 16 - A flexible seal, e.g. a bellows, shall be such that it is not over-stressed at any point and shall be protected from external mechanical damage and secured at each end by positive mechanical means. 6.2.3 Cemented joints Cemented joints sha

18、ll comply with the following requirements: They shall not be used on lids or covers which have to be removed to gain access to field wiring connections or in-service adjusting facilities. The width of a cemented joint shall be equal to or greater than 5 mm. 6.2.4 Operating rods and spindles Openings

19、 in enclosures for rods or spindles shall have means, other than grease or compound, that will prevent the ingress of dust, both when the spindles or rods are in motion and when they are at rest. 6.2.5 Power shafts Openings in enclosures for power shafts shall have means, other than grease or compou

20、nd, that will prevent the ingress of dust, both when the shafts are in motion and when they are at rest. 6.2.6 Windows 6.2.6.1 Cemented windows A cemented window shall be cemented either directly into the wall of the enclosure so as to form with the latter an inseparable assembly, or into a metallic

21、 frame such that the assembly can be replaced as a unit. 6.2.6.2 Gasketed windows A gasketed window may be mounted directly in the wall or cover of the enclosure, no separate detachable frame being necessary. It shall incorporate a suitable seal or gasket. 7 Supplementary rRequirements for electrica

22、l apparatus protected by enclosures for practice B for use in zone 20 or 21 or 22 7.1 General For apparatus marked for use in zone 21, the tests of 8.2.1.4 shall be conducted. For apparatus marked for use in zone 22, the tests of 8.2.1.5 shall be conducted. 7.2 Joints 7.2.1 Plain joints Plain joints

23、 (see Figure 1) shall have a minimum contact width from inside to outside of the enclosure and a maximum allowable clearance between the surfaces as shown in Table 1. - 17 - ANSI/ISA-61241-1 (12.10.03)-2006 (R2015) Table 1 Plain joints Minimum contact width of the plain joint (mm), W 5 22 Maximum al

24、lowable clearance between the surfaces of the joint (mm), G 0,05 0,22 NOTE For widths of joints between 5 mm and 22 mm, the maximum clearance may be increased by 0,01 mm for each millimetre increase in joint width greater than 5 mm. G W I E C 3 4 6 / 0 4 Figure 1 Plain joints 7.2.2 Spigotted joints

25、Spigotted joints (see Figure 2), which have axial, L, and radial, W, paths neither of which is less than 1,2 mm, may have diametrical clearances as shown in Table 1 for plain joints. The radial section, W, of the spigotted joint shall have a maximum allowable clearance, G, as shown in Table 1 shown

26、for plain joints. L G W P ar t 2 P ar t 1 I . D. O. D. IEC 3 4 7 /0 4 Figure 2 Spigotted joints 7.2.3 Gasketed joints For gasketed joints (see Figure 3), requirements are given in Table 2. ANSI/ISA-61241-1 (12.10.03)-2006 (R2015)- 18 - W O IE C 3 4 8 /0 4 Figure 3 Gasketed joints Table 2 Gasketed jo

27、ints Maximum opening dimension (mm), O 305 915 915 Minimum required effective width of gasketed joint (mm), W 3 4,8 9,5 For maximum opening dimensions between 305 mm and 915 mm, the effective width of the gasketed joint shall be increased by 0,003 mm for each millimetre increase in the maximum openi

28、ng dimension greater than 305 mm. 7.3 Operating rods, spindles or shafts 7.3.1 General For apparatus intended for use in zone 20 and 21 and 22, dust exclusion shall not depend on running contact seals. The equipment shall meet the design details of Tables 3 and 4 and the tests of 8.2.1 without the r

29、unning contact seal installed. 7.3.2 Running contact seals If running contact seals are used, the equipment shall meet the design details of Tables 3 and 4 and the dust tests of 8.2.1 without the running contact seals installed. 7.3.3 Power shafts Power shafts for transmitting power at rotational sp

30、eeds of 100 r/min or more (see Figure 4), shall meet the requirements for the length of path from the inside to the outside of the enclosure as given in Table 3. - 19 - ANSI/ISA-61241-1 (12.10.03)-2006 (R2015) D 1 D 2 L IE C 3 4 9 /0 4 Figure 4 Power shafts for speeds of 100r/min or more Table 3 Pow

31、er shafts for speeds of 100 r/min or more Minimum length of path for power shafts (mm), L 12,5 38,5 Maximum allowable diametrical clearance (mm), D2 D1 0,26 0,57 For lengths of path for power shafts between 12,5 mm and 38,5 mm, the maximum diametrical clearance may be increased by 0,012 mm for each

32、millimetre increase in the length of path greater than 12,5 mm. NOTE The minimum length of path may include both the inner and outer lips of the bearing housing. 7.3.4 Operating rods Operating rods, spindles or shafts having rotary motion of less than 100 r/min or axial motion, shall have either a t

33、hreaded joint with three full threads engaging, or have a minimum length of path from the inside to the outside of the enclosure as given in Table 4. Table 4 Power shafts for speeds of less than 100 r/min Minimum length of path for operating rods, spindles or shafts (mm), L 12,5 25,5 Maximum allowab

34、le diametrical clearance (mm), D2 D1 0,13 0,21 For lengths of path for operating rods, spindles or shafts between 12,5 mm and 25,5 mm, the maximum diametrical clearance may be increased by 0,006 mm for each millimetre length of path greater than 12,5 mm. 7.4 Clearance of bolts Bolts passing through

35、the enclosure wall shall have a maximum diametrical clearance between the unthreaded shank of the bolt, N, and the clearance hole in the enclosure, DS-DH, of not more than 0,26 mm and a length of path, L, of not less than 12,5 mm (Figure 5). ANSI/ISA-61241-1 (12.10.03)-2006 (R2015)- 20 - L DH DS N I

36、E C 35 0 /04 Figure 5 Clearance of bolts 8 Verification and tests 8.1 General In addition to the verification and testing requirements of IEC 61241-0, the following applies. 8.2 Type tests 8.2.1 Tests for dust exclusion by enclosures 8.2.1.1 General Depending on the environmental conditions likely t

37、o be encountered (such as area classification and conductivity of dust) two levels of dust exclusion efficiency have been adopted: “dust-tight” and “dust-protected” enclosures. NOTE For the required degree of dust exclusion efficiency, see IEC 61241-14. In making an assessment for the acceptance of

38、the apparatus following the tests, the effect of the presence of a combustible dust shall be taken into consideration. The precautions that shall be taken where a combustible dust is used for the tests is left to the discretion of the testing authority or others concerned. 8.2.1.2 Dust-tight apparat

39、us for practice A The apparatus shall be subjected to the thermal endurance to heat, thermal endurance to cold, and mechanical tests of ANSI/ISA-61241-0. The apparatus shall then be subjected to the pressure test of 8.2.3. EnclosuresFinally, the apparatus, including rotating machines, shall satisfy

40、the requirements for IP6X, as specified in IEC 60529, or IEC 60034-5 as applicable. The apparatus shall be considered as belonging to “Category 1 enclosure” as specified in IEC 60529. - 21 - ANSI/ISA-61241-1 (12.10.03)-2006 (R2015) 8.2.1.3 Dust-protected apparatus for practice A The apparatus shall

41、be subjected to the thermal endurance to heat, thermal endurance to cold, and mechanical tests of ANSI/ISA-61241-0. The apparatus shall then be subjected to the pressure test of 8.2.3. All enclosuresFinally, the apparatus, including rotating machines, shall satisfy the test and acceptance requiremen

42、ts of IP5X, as specified in IEC 60529 or IEC 60034-5 as applicable. For the purposes of acceptance criteria in accordance with IEC 60034-5, all dusts shall be considered to be conductive and therefore IP5X shall be assessed against the acceptance criteria of IP6X. The apparatus shall be considered a

43、s belonging to “Category 1 enclosure” as specified in IEC 60529. 8.2.1.4 Dust-tight apparatus for practice B 8.2.1.4.1 Heat cycling test a) The apparatus shall be mounted in a test chamber of sufficient size to permit free circulation of the dust-air mixture around the sample during the test. A mixt

44、ure of suitable dust and air shall be circulated by auxiliary equipment and introduced continuously into the test chamber during the entire test period. The particle size of the dust shall be such that it passes through a No. 100 ASTM sieve (approximately 0,15 mm mesh width) with approximately 22 %

45、passing through a No. 200 ASTM sieve (approximately 0,075 mm mesh width). b) For the test specified above, the apparatus shall be operated at rated load until maximum temperatures are reached and then disconnected from the supply until it has cooled to approximately room temperature. The number of c

46、ycles of heating and cooling shall be at least six and shall last for a minimum of 30 h. NOTE 1 The maximum temperature under load may be obtained by other means than running at rated load. For an enclosure such as a junction box without any appreciable heating effect (e.g. a switch), the effect of

47、changes in barometric pressure may be simulated to produce the desired “breathing” effect. NOTE 2 Heating the chamber to 40 C and maintaining this temperature for approximately 1 h and subsequently cooling the chamber to 20 C and maintaining this temperature for 1 h has been found to be a satisfacto

48、ry method for simulating changes in barometric pressure. When the required number of heating and cooling cycles has been completed, the equipment for producing the dust-air atmosphere shall be shut off and the accumulated dust shall be removed from the exterior surfaces of the enclosures by gently b

49、rushing, wiping or shaking, with care being taken to avoid the introduction of additional dust into the enclosures. Under no circumstances shall the dust be removed by an air blast or by vacuum cleaning. The enclosure shall then be opened and carefully examined for the degree of dust penetration if any. 8.2.1.4.2 Acceptance criteria No visible dust shall have entered the enclosure. Dust in joints shall not be considered a failure. ANSI/ISA-61241-1 (12.10.03)-2006 (R2015)- 22 - 8.2.1.5 Dust protected apparatus for practice B 8.2.1.5.1 Heat

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