Standard number: QX/T 232-2019
Standard name: Compliation specifications
for the periodic inspeetion report of lightning protection system English name: Compliation specifications for the periodic inspeetion report of lightning protection system ||
tt||Standard format: PDF
Release time: 2019-09-18
Implementation time: 2019-12-01
Standard size: 3897K
Standard introduction: This standard is drafted in accordance with the rules given in GB/T1.1-2009.
This standard replaces QX/T232-2014 "Compliation specifications for periodic inspection report of lightning protection system". Compared with QX/T232-2014, in addition to the editorial
revisions, the main technical changes are as follows: -
The scope of the standard has been modified (see Chapter 1, Chapter 1 of the 2014 edition);
Deleted normative references such as GB/T2887-2011 (see Chapter 2 of the 2014 edition);
Deleted the terms and definitions of "general table", "classification table" and "equipotential connection" (see 3.3, 3.4 and 3.5 of the 2014 edition);
Added the terms and definitions of "lightning protection equipotential connection" and "data center" (see 3.3 and 3.9); ||
tt||Modified the terms and definitions of "periodic inspection of lightning protection devices", "test report" and "surge protector" (see 3.1, 3.2 and 3.3 );
8, 3.1, 3.2 and 3.10 of the 2014 edition);
Modified the basis for the preparation of the periodic inspection report of lightning protection devices (see 4.1, 4.1 of the 2014 edition);
Modified the composition of the periodic inspection report of lightning protection devices (see 4.2, 4.2 of the 2014 edition);
Added the requirements for the "statement" and "summary table" of the periodic inspection report of lightning protection devices (see 4.3.3 and 4.3.5);
Modified the classification and requirements of the periodic inspection table of lightning protection devices (see 4.3.6, 4.3.4 of the 2014 edition);
-Deleted the wording requirements for the inspection report (see 4.4 of the 2014 edition);
Modified the analysis and processing of original records (see 5.1, 5.1 of the 2014 edition);
Modified the coding and numbering of the test report (see 5.2.1, 5.2.1 of the 2014 edition); modified the editing and typesetting of the test report (see 52.3, 5.2.3 of the 2014 edition); ||
tt||Modified the verification and approval process of the test report (see 5.3, 5.3 of the 2014 edition);
Modified the filling requirements of the lightning protection device test form for buildings (see 6.2, 6.2 of the 2014 edition); -Modified the filling requirements of the lightning protection device test form for data centers (see 7.2, 7.2 of the 2014 edition); -Modified the filling requirements of the lightning protection device test form for oil (gas) stations (see 8.2, 8.2 of the 2014 edition); -Modified the filling requirements of the lightning protection device test form for oil (gas) depots (see 9.2, 9.2 of the 2014 edition);
The filling requirements of the lightning protection device inspection form for communication bureau stations (base stations) have been modified (see 10.2, 10.2 of the 2014 edition); the filling requirements of the lightning protection device inspection form for large floating roof oil tanks and gas pipeline systems have been added (see Chapter 1 and Chapter 12); the attributes of the cover requirements, inspection report format and plan view format of the appendix lightning protection device periodic inspection report have been modified, and the normative appendix has been changed to an informative appendix (see Appendix A, Appendix C and Appendix D, Appendix A, Appendix B and Appendix C of the 2014 edition); the cover requirements of the lightning protection device periodic inspection report have been modified (see Appendix A, Appendix A of the 2014 edition); This standard gives the general provisions and specific preparation requirements for the preparation of lightning protection device periodic inspection reports, and specifies the formats of reports for seven types of inspection objects: buildings, data centers, oil (gas) stations, oil (gas) depots, communication bureau stations (base stations), large floating roof oil tanks and gas pipeline systems. This standard applies to the preparation of periodic inspection reports for lightning protection devices.
2 Normative references
The following documents are essential for the application of this document. For dated references, only the dated version applies to this document
. For undated references, the latest version (including all amendments) applies to this document.||
tt||GB/T21431-2015 Technical Specification for Inspection of Lightning Protection Devices for Buildings
B50057-2010 Lightning Protection Design Code for Buildings
GB5007-2014 Design Code for Petroleum Depots
GB50156-2012 Design and Construction Code for Automobile Gasoline and Gas Stations (2014 Edition)
B50343-2012 Technical Specification for Lightning Protection of Electronic Information Systems in Buildings
3 Terms and Definitions
The following terms and definitions apply to this document.
Periodic inspection of lightning protection system The process of periodic inspection, on-site testing and comprehensive analysis of the settings and performance characteristics of lightning protection devices .
3.2
Inspection report
A periodic inspection report of lightning protection devices issued after comprehensive analysis and processing after on-site inspection.
This standard provides general provisions and specific preparation requirements for the preparation of periodic inspection reports of lightning protection devices, and specifies the formats of reports for seven types of inspection objects: buildings, data centers, oil (gas) stations, oil (gas) depots, communication bureau stations (base stations), large floating roof oil tanks and gas pipeline systems. This standard applies to the preparation of periodic inspection reports of lightning protection devices.

ICS07.060
Meteorological Industry Standard of the People's Republic of China
QX/T232—2019
Replaces QX/T232—2014
Complilation specifications for the periodic inspection report of lightning protection devices Lightning Protection System
Industry Standard Information Service Platform
Release on 2019-09-18
China Meteorological Administration
Implementation on 2019-12-01bzxz.net
Industry Standard Information Service Platform
Normative Reference Documents
Terms and Definitions
General Provisions
Compilation Requirements
Lightning Protection Device Inspection Table for Buildings
Lightning Protection Device Inspection Table for Data Centers
Lightning Protection Device Inspection Table for Oil (Gas) StationsLightning Protection Device Inspection Table for Oil (Gas) DepotsLightning Protection Device Inspection Table for Communication Bureau Stations (Base Stations)Lightning Protection Device Inspection Table for Large Floating Roof Oil TanksLightning Protection Device Inspection Table for Gas Pipeline Systems·Appendix A (Informative Appendix)
Appendix B (Informative Appendix)
Appendix C (Informative Appendix)
Appendix D (Informative Appendix)
Appendix E (Informative Appendix)
Appendix F (Informative Appendix)
References
Cover format of periodic inspection report of lightning protection device Declaration format of periodic inspection report of lightning protection device Table format for periodic inspection report of lightning protection device Schematic diagram of lightning protection device inspection
National standards for relevant drawing symbols
National standards for relevant measurement units
QX/T232—2019
Industry standard information service platform
Industry standard information service platform
This standard was drafted in accordance with the rules given in GB/T1.1—2009. QX/T232—2019
This standard replaces QX/T232—2014 "Specifications for the Preparation of Periodic Inspection Reports for Lightning Protection Devices". Compared with QX/T232-2014, in addition to editorial changes, the main technical changes are as follows: - Modified the scope of the standard (see Chapter 1, Chapter 1 of the 2014 edition); - Deleted the normative references such as GB/T2887-2011 (see Chapter 2 of the 2014 edition); - Deleted the terms and definitions of "general table", "classification table" and "equipotential connection" (see 3.3, 3.4 and 3.5 of the 2014 edition); - Added the terms and definitions of "lightning protection equipotential connection" and "data center" (see 3.3 and 3.9); - Modified the terms and definitions of "periodic inspection of lightning protection devices", "test report" and "surge protector" (see 3.1, 3.2 and 3.8. 3.1, 3.2 and 3.10 of the 2014 edition); - Modified The basis for the preparation of the periodic inspection report of lightning protection devices was revised (see 4.1.4.1 of the 2014 edition); the composition of the periodic inspection report of lightning protection devices was revised (see 4.2, 4.2 of the 2014 edition); the requirements for the "statement" and the "summary table" of the periodic inspection report of lightning protection devices were added (see 4.3.3 and 4.3.5); the classification and requirements of the periodic inspection table of lightning protection devices were revised (see 4.3.6, 4.3.4 of the 2014 edition); the wording requirements of the inspection report were deleted (see 4.4 of the 2014 edition); the analysis and processing of the original records were revised (see 5.1.5.1 of the 2014 edition); the coding and numbering of the inspection report were revised (see 5.2.1, 5.2.1 of the 2014 edition); the inspection report was revised The editing and typesetting of the inspection report has been revised (see 5.2.3. 5.2.3 of the 2014 edition); the verification and approval process of the inspection report has been revised (see 5.3, 5.3 of the 2014 edition); the filling requirements of the lightning protection device inspection form for buildings have been revised (see 6.2. 6.2 of the 2014 edition); the filling requirements of the lightning protection device inspection form for data centers have been revised (see 7.2. 7.2 of the 2014 edition); the filling requirements of the lightning protection device inspection form for oil (gas) stations have been revised (see 8.2. 8.2 of the 2014 edition); the filling requirements of the lightning protection device inspection form for oil (gas) vehicles have been revised (see 9.2, 9.2 of the 2014 edition); the filling requirements of the lightning protection device inspection form for communication bureau stations (base stations) have been revised (see 10.2, 10.2 of the 2014 edition); 0.2); Added the filling requirements of the lightning protection device inspection form for large floating top oil and gas pipeline systems (see Chapter 11 and Chapter 12); Modified the cover requirements of the lightning protection device regular inspection report, the inspection report format and the plane diagram format of the appendix, and changed it from a normative appendix to an informative appendix (see Appendix. Appendix C and Appendix D, Appendix A, Appendix B and Appendix C of the 2014 edition); Modified the cover requirements of the lightning protection device regular inspection report (see Appendix A, Appendix A of the 2014 edition); Added Appendix B (Informative Appendix) Lightning Protection Device Regular Inspection Report Statement Format (see Appendix B): Modified the format of the lightning protection device inspection form for buildings, data centers, etc. (see Appendix C, Appendix C of the 2014 edition); Added references.
This standard is proposed and managed by the National Technical Committee for Standardization of Lightning Disaster Prevention Industry. The drafting units of this standard are: Anhui Meteorological Disaster Prevention Technology Center, Bozhou Meteorological Bureau, Hefei Aerospace Electromagnetic Technology Co., Ltd., Hainan Meteorological Disaster Prevention Technology Center, Hefei Jiyun Meteorological Technology Co., Ltd., Heilongjiang Meteorological Disaster Prevention Technology Center, Guizhou Meteorological Disaster Prevention Technology Center, Hunan Meteorological Disaster Prevention Technology Center. The main drafters of this standard are: Zhu Hao, Gao Yi, Wang Kai, Cheng Wenjie, Lv Dongbo, Li Xingtai, Wang Zhigang, Wang Yebin, Sun Hao, Shi Rui, Dai Canxing, Zhuang Daoquan, Qiu Yangyang, Tao Yin, Han Xiaoyu, Zhang Chunlong, Zhang Gang, Wang Hao, Cheng Xiangyang, Li Yanfeng, Li Zhibao. The previous versions of the standards replaced by this standard are: QX/T232—2014.
Industry Standard Information Service Platform
1 Scope
Specification for the Preparation of Periodic Inspection Reports for Lightning Protection Devices QX/T232—2019
This standard provides general provisions and specific preparation requirements for the preparation of periodic inspection reports for lightning protection devices, and specifies the formats of reports for seven types of inspection objects: buildings, data centers, oil (gas) stations, oil (gas) depots, communication bureau stations (base stations), large floating roof oil tanks, and gas pipeline systems. This standard applies to the preparation of periodic inspection reports for lightning protection devices. 2 Normative referenced documents
The following documents are essential for the application of this document. For all dated referenced documents, only the dated version applies to this document. For any undated referenced documents, the latest version (including all amendments) shall apply to this document GB/T21431—2015 Technical Specification for Testing of Lightning Protection Devices for Buildings GB50057—20103
Code for Design of Lightning Protection for Buildings
GB50074—2014
Code for Design of Petroleum Depots
GB50156—2012
Code for Design and Construction of Automobile Gasoline and Gas Stations (2014 Edition) GB503432012
Technical Specification for Lightning Protection of Electronic Information Systems in Buildings 3 Terms and Definitions
The following terms and definitions apply to this document. 3.1
periodic inspection of lightning protection system Periodic inspection of lightning protection system
The process of periodic inspection, on-site testing and comprehensive analysis of the settings and performance characteristics of lightning protection systems. 3.2
Inspection reportFer.ot
Periodic inspection report of lightning protection systems issued after comprehensive analysis and processing after on-site inspection. 3.3
lightning equipotential voncing,LEB
Smart service platform
Connecting separated metal objects directly to the lightning protection system with connecting conductors or through surge protectors to reduce the potential difference caused by lightning current.
[GB50057—2010.Definition 2.0.19]
The external lightning protection system consists of a lightning arrester, a down conductor and a grounding device [GB500572010.Definition 2.0.6]
The internal lightning protection system consists of a lightning protection equipotential connection and a separation distance from the external lightning protection system [GB50057—2010.Definition 2.0.6]0.7
QX/T232—2019
commonearthingsystem
Common grounding system
A grounding device that connects lightning protection devices of various parts, metal components of buildings, low-voltage power distribution protection lines (PE), equipment protection ground, shielding body grounding, anti-static grounding and logic ground of information equipment. [GB21431—2015, definition 3.6]
Shielding
A shell, barrier or other object (usually conductive) that can weaken the effect of the electric and magnetic fields on one side on the device or circuit on the other side.
[GB/T19663—2005. definition 6.2]
surgeprotectivedevice;SPD
Surge protector
An electrical appliance used to limit transient overvoltage and discharge surge current, which contains at least one nonlinear element. [GB/T18802.1—2011, definition 3.1]
Data center data center
A building that provides an operating environment for electronic information equipment placed centrally. It can be one or several buildings, or part of a building, including a main computer room, auxiliary area, support area, and administrative area. [GB50174—2017, definition 2.0.1]
4 General provisions
4.1 Basis for preparation
4.1.1 Original records of on-site inspection
4.1.2 National standards, industry standards, and local standards for inspection. 4.1.3 The following lightning protection device information provided by the entrusting unit: Industry standard information
Design information:
Completion information:
Acceptance information.
4.1.4 Historical inspection information.
4.2 Composition of the test report
Your service platform
It consists of a cover, a statement, a general table, a summary table, a test table, a schematic diagram of the inspection surface of the lightning protection device and a back cover. 4.3 Format of the test report
4.3.1 Page numbers
Number them sequentially starting from the general table, and compile them into page × of × pages, and place them in the upper right corner of the page. 4.3.2 Cover
It is advisable to use hardcover paper to print a general text, including the front and back parts. For other requirements, see Appendix A. 4.3.3 Statement
It should include a statement on the legality and validity of this periodic test report, the test qualifications of the testing agency and related information. 2
For the format of the statement, see Appendix B.
4.3.4 Summary table
QX/T232—2019
4.3.4.1 Contains file number, name of entrusting unit, address, contact department, person in charge, telephone number, zip code, test items, time of this test, time of next test, testing agency (official seal), issuer and basic information of testing agency. For the format, please refer to Figure C.1 in Appendix C. 4.3.4.2 When the entrusting unit has multiple inspected sites in the same city, the address of the entrusting unit shall be filled in with the headquarters address of the entrusting unit in the city. When there are multiple testing sites, the test items shall be filled in separately in the test form. 4.3.4.3 The names of the items in the test item list shall correspond to the names of the items in the subsequent test table. 4.3.4.4 When a unit has a test cycle of half a year and one year, the test items of one year and half a year shall be numbered and archived separately, and divided into two test reports. When the inspection cycle of a unit is half a year, the inspection items of the first and second half of the year should be numbered separately, filed and reported. 4.3.4.5 The inspection cycle is calculated as half a year or one year from the end of this inspection, and the next inspection time starts from the day after the end of the inspection cycle.
4.3.4.6 The issuer should sign with a black fountain pen or carbon pen. 4.3.4.7 The inspection agency (official seal) column should be stamped with the official seal of the inspection agency, and the inspection special seal should not be stamped. The inspection comprehensive conclusion column of the summary table and the technical evaluation column of the classification inspection table should be stamped with the inspection special seal. 4.3.5 Summary table
4.3.5.1 Contains basic information such as file number, name of the entrusting unit, preparation basis, name of the testing instrument, measurement range, calibration effective deadline, inspection comprehensive conclusion, preparer, verifier and technical person in charge, see Figure C.2 in Appendix C, 4.3.5.2 Preparation basis column is filled in according to the national standards, industry standards, lightning protection device information provided by the entrusting unit and the inspection entrustment agreement adopted in the preparation of the inspection report. 4.3.5.3 The column of testing instrument shall be filled in according to the instrument name, measuring range and calibration effective deadline. 4.3.5.4 The column of comprehensive conclusion of testing shall include the source of the original data of this test report, the qualification of the test results, and the detailed explanation and judgment basis for the items that do not meet the standard specifications. The column of comprehensive conclusion of testing shall be stamped with the special seal of the testing organization.
4.3.5.5 The compiler, checker and technical person in charge shall sign with a black fountain pen or carbon pen. 4.3.6 Test table
The test table is divided into seven categories, which can be used
Building lightning protection device test table (format see Figure C.3 in Appendix C); a data center lightning protection device test table (format see Figure C.4 in Appendix C); an oil (gas) station lightning protection device test table (format see Figure C.5 in Appendix C); an oil (gas) depot lightning protection device test table (format see Figure C.6 in Appendix C); a communication bureau station (base station) lightning protection device test table (format see Appendix C + Figure C.7); a large floating roof oil tank lightning protection device test table (format see Figure C in Appendix C. Gas pipeline system lightning protection device test table (format see Figure C.9 in Appendix C). 4.3.6.2 The 7 types of test tables in 4.3.6.1 should be respectively in accordance with Chapter 6, The test form shall be prepared in accordance with the requirements of Chapter 7, Chapter 8, Chapter 9, Chapter 10, Chapter 11 and Chapter 12.
4.3.6.3 The test form shall not have a file number, and the date under the test-specific (seal) shall be the time when the report for the project is issued. 4.3.7 Plane diagram
4.3.7.1 The plane diagram shall include the drawing number, legend, orientation mark and personnel signature. For the size and position of the orientation mark on the drawing, please refer to Appendix D.
QX/T232—2019
4.3.7.2 The plane diagram shall not have page numbers. It is retrieved and distinguished by the drawing number. 4.3.7.3 The plane diagram shall contain the basic elements of the test object: the basic shape of the test object;
the length, width and height of the test object;
—lightning rod;
—down conductor:
—connection Grounding device:
Detection point;
Electrical reserved point;
Wiring topology and SPD schematic diagram.
4.3.7.4 The legend should list the symbols and their meanings. For common drawing symbols, please refer to the national standards listed in Appendix E. 4.3.8 Back cover
It is advisable to print it in a general text on hardcover paper, and the size and format should correspond to the cover. 5 Preparation requirements
5.1 Analysis and processing of original records
5.1.1 The power frequency resistance should be corrected for line resistance, except that the detection instrument itself has been corrected for line resistance. 5.1.2 The resistance value is the power frequency grounding resistance. When the grounding resistance needs to be expressed by the impulse grounding resistance, the soil resistivity near the grounding device should be measured and recorded at the same time. The power frequency grounding resistance should be corrected according to the method in Appendix C of GB50057:2010. Resistance is converted to impulse ground resistance. 5.2 Test report
5.2.1 Coding and numbering
5.2.1.1 The testing agency should number the test files in sequence according to the pattern of "testing agency qualification certificate number" + "[year]" + "four-digit code". The "four-digit code" should be arranged in ascending order starting from 0001 according to the test time of the test object in that year. For example: "(Qualification certificate number) [16] 060\ is the test file number of the first test object of ××× testing agency (qualification certificate number) in 2016. 5.2.1.2 The figures on the plane diagram should be numbered according to "year" + "_" + "four-digit code" + "_" + "three-digit code". The "four-digit code" should be consistent with the "four-digit code" in the file number, and the "primary code" should be arranged in sequence starting from 001. Information service
Example: 2016-0021-001.
5.2.1.3 The inspection points on the plane diagram should be numbered. 5.2.2 Measurement units and symbols
5.2.2.1 The measurement units and symbols used should comply with national measurement standards. For national standards for single values ​​of measurement, see Appendix F. 5.2.2.2 The calculation and compilation of lightning protection device inspection data should be in accordance with GB/T21431-2015,8.2. The numerical rounding comparison method is used. The unit of measurement for the length, width, height of buildings and protected objects, as well as the length of lightning rods, down conductors, grounding bodies, etc. is meter (m), and the value is retained to one decimal place; the unit of measurement for flat steel, round steel, angle steel, steel plate thickness, wire cross-section radius, etc. is millimeter (mm), and the value is directly rounded to an integer without retaining decimals; the unit of measurement for resistance value is ohm (2), transition resistance is retained to two decimal places, and other grounding resistances are retained to one decimal place.
5.2.3 Editing and typesetting
5.2.3.1 The test table should be arranged in A4 format vertically, and the plane diagram should be arranged in A4 format horizontally. The table and figure names should be arranged in Songti size 2 plus 4
bold and centered, and the table header, table footer and text in the table should be arranged in Songti size 5, see Appendix C and Appendix D. QX/T232—2019
5.2.3.2 In the report text, the period, comma, semicolon, and colon occupy one character position, are aligned to the lower left, and do not appear at the beginning of a line; the first half of quotation marks, brackets, and book title marks do not appear at the end of a line, and the second half do not appear at the beginning of a line: dashes and ellipsis marks each occupy two character positions, cannot be broken in the middle, and are centered vertically and horizontally. 5.2.3.3 For blank columns in the test report, "-" should be used when there is no such test item, and "" should be used when it cannot be tested. 5.2.3.4 Electronic files should be used for editing, and the compatibility of electronic files in the same region should be ensured. 5.2.3.5 Graphic software should be used for editing. And the compatibility of graphic files in the same region should be ensured. 5.3 Verification and approval process
5.3.1 Regular inspection reports of lightning protection devices should be reviewed electronically online. 5.3.2 The summary table should be issued by the principal person in charge of the inspection agency or the authorized signatory entrusted by the inspection agency, and stamped with the official seal of the inspection agency. 5.3.3 The summary table should be printed after preliminary review by the verifier and final review by the technical person in charge. The compiler, technical person in charge and verifier should sign with a black pen or carbon pen and sign it in the inspection summary. The conclusion column shall be stamped with the official seal of the testing organization. 5.3.4 The test form shall be initially reviewed by the verifier and finally reviewed by the technical person in charge before the text can be printed. It shall be signed by the technical person in charge, the verifier and no less than two testers with a black fountain pen or carbon pen, and the special seal for testing shall be stamped in the technical assessment column. 5.3.5 A complete regular inspection report of lightning protection devices shall be verified and approved according to the process specified in Figure 1 before it can be sent out. Preparation of test report
Failed
Printed text
Industry standard
Failed
Relevant personnel sign the test form 1
Stamp the special seal on the test form
People sign on the summary form
Stamp the official seal of the German organization on the summary form
Service platform
Issuance The person signs on the general form
Stamp the official seal of the testing agency on the general form
Entrusted unit
Testing agency archives
Lightning protection device periodic inspection report verification and approval flow chart 5
QX/T232—2019
6 Building lightning protection device inspection form
6.1 Scope of use
6.1.1 The periodic inspection report of lightning protection devices involving the first, second and third types of lightning protection buildings should adopt the format of Figure C.3. 6.1.2 Each independent building can be used as an inspection object. If the main building and the podium are connected as one, they should be regarded as two inspection objects and fill in the inspection form separately.
6.1.3 When there are multiple situations in the inspection content of the project, it is advisable to conduct it according to the actual situation. Expand and fill in one by one. 6.2 Form filling requirements
6.2.1 Basic information of the project
6.2.1.1 The project name, address, contact person and telephone columns should be filled in according to the actual information. 6.2.1.2 The test date and weather columns should be filled in with the time and weather information when the object was tested. 6.2.2 Buildings
6.2.2.1 The height, area and number of floors of the building should be filled in according to the completion data or the information provided by the entrusting unit. 6.2.2.2 The main purpose of the building should explain the use nature of the inspected building, such as commercial, residential, office, industrial plant, etc. 6.2.2.3 The lightning protection category should be determined according to the completion data or the requirements of GB50057-2010, 3.0.2~3.0.4 and 4.5.1. 6.2.3 Test results and individual evaluation
6.2.3.1 The test results column of the test content should be filled in according to the data of the on-site test and should comply with the provisions of Chapter 5. 6.2.3.2 The single-item assessment column shall be judged according to the corresponding key points of the specification and standard, and filled in "conform" or "non-conform". 6.2.4 Technical assessment
6.2.4.1 Technical assessment is the inspection conclusion of the inspection project or building. The inspection agency shall explain the items that do not meet the requirements of the specification separately and stamp the special inspection seal. The year, month and day shall be the final review time of the inspection form of the project or building. 6.2.4.2 The signatures of the inspector, the verifier and the technical person in charge shall comply with the provisions of 5.3.4. Standard letter
7 Data Center Lightning Protection Device Inspection Form
7.1 Scope of use
7.1.1 The regular inspection and reporting of lightning protection devices for data centers in buildings should adopt the format of Figure C.4. 7.1.2 The inspection report of lightning protection devices for buildings where data centers are located should be prepared using the format of Figure 2 and numbered in sequence with other inspection forms.
7.1.3 When there are multiple situations in the inspection content of the project, it is advisable to expand it according to the actual situation and fill it out one by one. 7.2 Form filling requirements
7.2.1 Basic information of the project
The basic information of the project in the table of Figure C.4 should be filled in in accordance with the provisions of 6.2.1. 7.2.2 Data Center
7.2.2.1 The total number of floors, lightning protection type, main structure, floors and area of ​​the building where the data center is located, and the name of the data center should be based on the completion of 6.1 The periodic inspection report of lightning protection devices for Class I, Class II and Class III lightning protection buildings should adopt the format of Figure C.3. 6.1.2 Each independent building can be regarded as an inspection object. If the main building and the podium are connected as one, they should be regarded as two inspection objects and fill in the inspection form separately.
6.1.3 When there are multiple situations in the inspection content of the project, it is advisable to expand it according to the actual situation and fill it in one by one. 6.2 Form filling requirements
6.2.1 Basic information of the project
6.2.1.1 The project name, address, contact person and telephone columns should be filled in according to the actual information. 6.2.1.2 The inspection date and weather columns should be filled in with the time and weather information when the object was inspected. 6.2.2 Buildings
6.2.2.1 The height, area and number of floors of the building should be filled in according to the completion data or the data provided by the entrusting unit. 6.2.2.2 The main use of the building should state the use nature of the inspected building, such as commercial, residential, office, industrial plant, etc. 6.2.2.3 The lightning protection category should be determined according to the completion data or the requirements of GB50057-2010, 3.0.2~3.0.4 and 4.5.1. 6.2.3 Test results and single item evaluation
6.2.3.1 The test result column of the test content shall be filled in according to the data of the on-site test and shall comply with the provisions of Chapter 5. 6.2.3.2 The single item evaluation column shall be judged according to the key points of the corresponding specification and standard and filled in "conform" or "non-conform". 6.2.4 Technical evaluation
6.2.4.1 The technical evaluation is the test conclusion of the test item or building. The test organization shall explain the items that do not meet the requirements of the specification separately and stamp them with the special test seal. The year, month and day shall be the final review time of the test form of the project or building. 6.2.4.2 The signatures of the tester, the verifier and the technical person in charge shall comply with the provisions of 5.3.4. Standard letter
7 Data center lightning protection device inspection form
7.1 Scope of use
7.1.1 The regular inspection and reporting of lightning protection devices for data centers in buildings should adopt the format of Figure C.4. 7.1.2 The lightning protection device inspection report of the building where the data center is located should be prepared using the format of Figure 2 and numbered in sequence with other inspection forms.
7.1.3 When there are multiple situations in the inspection content of the project, it is advisable to expand the elements according to the actual situation and fill in one by one. 7.2 Form filling requirements
7.2.1 Basic information of the project
The basic information of the project in the table of Figure C.4 should comply with the provisions of 6.2.1. 7.2.2 Data center
7.2.2.1 The total number of floors, lightning protection type, main structure, floors and area of ​​the building where the data center is located and the name of the data center should be based on the completion of 61 The periodic inspection report of lightning protection devices for Class I, Class II and Class III lightning protection buildings should adopt the format of Figure C.3. 6.1.2 Each independent building can be regarded as an inspection object. If the main building and the podium are connected as one, they should be regarded as two inspection objects and fill in the inspection form separately.
6.1.3 When there are multiple situations in the inspection content of the project, it is advisable to expand it according to the actual situation and fill it in one by one. 6.2 Form filling requirements
6.2.1 Basic information of the project
6.2.1.1 The project name, address, contact person and telephone columns should be filled in according to the actual information. 6.2.1.2 The inspection date and weather columns should be filled in with the time and weather information when the object was inspected. 6.2.2 Buildings
6.2.2.1 The height, area and number of floors of the building should be filled in according to the completion data or the data provided by the entrusting unit. 6.2.2.2 The main use of the building should state the use nature of the inspected building, such as commercial, residential, office, industrial plant, etc. 6.2.2.3 The lightning protection category should be determined according to the completion data or the requirements of GB50057-2010, 3.0.2~3.0.4 and 4.5.1. 6.2.3 Test results and single item evaluation
6.2.3.1 The test result column of the test content shall be filled in according to the data of the on-site test and shall comply with the provisions of Chapter 5. 6.2.3.2 The single item evaluation column shall be judged according to the key points of the corresponding specification and standard, and filled in "conform" or "non-conform". 6.2.4 Technical evaluation
6.2.4.1 The technical evaluation is the test conclusion of the test project or building. The test organization shall explain the items that do not meet the requirements of the specification separately and stamp them with the special test seal. The year, month and day shall be the final review time of the test form of the project or building. 6.2.4.2 The signatures of the tester, the verifier and the technical person in charge shall comply with the provisions of 5.3.4. Standard letter
7 Data center lightning protection device inspection form
7.1 Scope of use
7.1.1 The regular inspection and reporting of lightning protection devices for data centers in buildings should adopt the format of Figure C.4. 7.1.2 The lightning protection device inspection report of the building where the data center is located should be prepared using the format of Figure 2 and numbered in sequence with other inspection forms.
7.1.3 When there are multiple situations in the inspection content of the project, it is advisable to expand the elements according to the actual situation and fill in each one. 7.2 Form filling requirements
7.2.1 Basic information of the project
The basic information of the project in the table of Figure C.4 should comply with the provisions of 6.2.1. 7.2.2 Data center
7.2.2.1 The total number of floors, lightning protection type, main structure, floors and area of ​​the building where the data center is located and the name of the data center should be based on the completion of 6
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